Department of Microelectronics

Source: https://microelectronics.tudelft.nl/Research/theme.php?id=10 Parent: https://microelectronics.tudelft.nl/Research/

Department of Microelectronics

Faculty of Electrical Engineering, Mathematics, and Computer Science

XG - Next Generation Sensing and Communication

Contact: Leo de Vreede

The XG theme aims to pioneer the next generation of wireless sensing and communication systems with high functionality and low ecological footprint.

Click on image to see the XG Theme Posterbook...

Motivation

The human desire for "smart environments" and "to be connected anywhere, anytime" is changing the way we interact with our surroundings and will drastically impact our society. Wireless data traffic is growing exponentially and is driving mobile networks and their devices from 4G+ to 5G services, to handle more users and services at higher data rates and lower latency. Consequently, the use of larger signal bandwidths and massive MIMO techniques will be mandatory. At the same time, the Internet-of-Things evolution will require connectivity of large numbers of devices at low data rates, but with very strict requirements on response times and energy usage. Spectrum scarcity will demand dynamic spectrum usage based on cooperative spectrum sensing and cognitive radio concepts. Moreover, GPS-free, reliable and accurate location estimation will prove to be an essential feature. While in the enhancement of societal safety and security (including environment monitoring and autonomous transportation), microwave and THz sensing systems are expected to play a crucial role.

XG Theme

The XG theme is a faculty-wide initiative combining expertise on electronics with that of networks and embedded systems. Within the theme, a number of societal applications are addressed:

Autonomous driving - distributed sensing and high accuracy localization
Wireless communication - 5G and beyond
THz sensing

Technology

Wireless sensing and communication systems share the need to transmit and receive EM waves. This yields, in spite of their different signal processing, to similar requirements on system architecture and hardware technology. To serve both in a cost-effective and ecologically responsible manner, while benefiting directly from Moore’s law, novel reconfigurable highly integrated TX/RX solutions with multifunctional antenna systems and embedded signal processing capabilities are envisioned to be implemented in advanced semiconductor technologies. Cognitive/automated usage of EM spectrum, adaptive hardware and signal processing, cognitive sensing and network management are expected features of these next generation wireless systems.

Challenges

Scientific challenges are found in identifying and implementing new technology, design and system concepts that are truly energy-efficient, modular, data-rate scalable, frequency agile and cost-effective, while providing high functionality and data quality under intelligent control. These multidisciplinary challenges provide increased focus and synergy among the research groups within EEMCS that want to be leading in these developments and aim to provide the wireless communication and sensing solutions of the future.

Disciplines

Covered disciplines are electronics, digital, RF, (sub)mm-wave and THz circuit design, signal processing, cognitive/automated networking, embedded systems as well electromagnetics, antennas, remote sensing and space satellites applications.

Projects under this theme

[### Digital RF Power

DISRUPT is an ERC Synergy project that aims to deliver fully digital, energy-efficient transmitters for applications in 5G and 6G wireless networks, targeting a 50% reduction in the overall energy consumption of wireless networks.](https://microelectronics.tudelft.nl/Research/project.php?id=243&ti=10) [### Digitally Modulated Radar

Optimal and adaptive design of digital MIMO radar (waveforms, arrays)](https://microelectronics.tudelft.nl/Research/project.php?id=234&ti=10) [### Atmospheric Turbulence Informed Machine Learning for Laser Satellite Communications

Physics-informed machine learning algorithms to formulate the optical link performance map](https://microelectronics.tudelft.nl/Research/project.php?id=223&ti=10) [### Future Network Services 6G

Nationaal Groeifonds](https://microelectronics.tudelft.nl/Research/project.php?id=224&ti=10) ### Development of packaging technology at sub-terahertz frequencies [### Towards Energy-Efficient Tbps Wireless Links

TeraGreen will develop ultra wideband and low-power consumption BiCMOS transmitters and receivers integrated with lens array architectures at 300GHz, combined with baseband algorithms suitable for energy-efficient analog-to-digital conversion.](https://microelectronics.tudelft.nl/Research/project.php?id=225&ti=10) [### Wideband wide-scanning arrays with improved polarization purity

Wideband wide-scan arrays for multifunction radars applications](https://microelectronics.tudelft.nl/Research/project.php?id=154&ti=10) [### Terahertz Integral Field Unit with Universal Nanotechnology

TIFUUN is an imaging spectrometer for mapping the submillimeter-wave universe in 3D](https://microelectronics.tudelft.nl/Research/project.php?id=227&ti=10) ### DIRAC [### Communication technology unlocking the ocean – UCOMMS at the edge

Development of underwater communication techniques to improve the communication efficiency.](https://microelectronics.tudelft.nl/Research/project.php?id=200&ti=10) [### Next-generation chip assembly processes

Developing technology for ultra-high throughput and sustainable chip assembly processes.](https://microelectronics.tudelft.nl/Research/project.php?id=198&ti=10) [### Digital tRAnSmitTer ICs

This project aims to develop silicon DTX ICs for highly-integrated and energy-efficient mMIMO base stations.](https://microelectronics.tudelft.nl/Research/project.php?id=183&ti=10) [### THz silicon-Integrated CAMera for low-cost imaging applications

Develop a real-time multi pixel passive radiometer, operating between 0.1 THz and 1THz, integrated in a silicon based technology, with temperature resolution better than 1K](https://microelectronics.tudelft.nl/Research/project.php?id=181&ti=10) [### Closed loop adaptive radar resource allocation

Design of a radar system to operate in a congested and contested environment](https://microelectronics.tudelft.nl/Research/project.php?id=184&ti=10) [### UNB-Lens-Arrays

Lens Antenna Array for Ultrafast Wireless Communication](https://microelectronics.tudelft.nl/Research/project.php?id=182&ti=10) ### Fundamentals of backside metals system for 5G RF power modules [### Coded-Radar for Interference Suppression in Super-Dense Environments

CRUISE will address the challenges regarding spectrum crowding and ensures proper radar signal detection, accurate ranging, Doppler and azimuth measurements, and object classification in a highly-occupied frequency spectrum](https://microelectronics.tudelft.nl/Research/project.php?id=152&ti=10) [### Energy Efficient Radar TX

In the next years, advanced driver assistance systems (ADAS) are expected to transform cars into securely-connected self-driving robots with the capability of sensing the environment, thinking, and acting autonomously. CRUISE facilitates transforming to this near era.](https://microelectronics.tudelft.nl/Research/project.php?id=130&ti=10) [### Integrated Cooperative Automated Vehicles

This research program addresses current transportation challenges regarding throughput and safety with an integrated approach to automated and cooperative driving](https://microelectronics.tudelft.nl/Research/project.php?id=105&ti=10) [### Digitally Dominant Analog Blocks for Ultra-Low-Power Wireless Sensor Network

All-digital phase-locked loops, inductor/capacitor-based DC-DC switching converters](https://microelectronics.tudelft.nl/Research/project.php?id=47&ti=10) ### Standardized Self-diagnostic Sensing Systems for Highly Automated Driving [### Deep Spectroscopic High-redshift Mapper

DESHIMA is an integrated superconducting spectrometer for wideband submillimeter astronomy](https://microelectronics.tudelft.nl/Research/project.php?id=63&ti=10)

History

[### Multi-Beam Antenna arrays

Wideband wide-scanning array with multi-beam capability](https://microelectronics.tudelft.nl/Research/project.php?id=169&ti=10) ### Terahertz Astronomy with Novel DiElectric Materials [### Antenna user terminal with Wide Angle Impedance Matching (WAIM) metamaterial radome

Development of Satcom antenna for user terminals, with improved performances with respect to available phased array solutions.](https://microelectronics.tudelft.nl/Research/project.php?id=153&ti=10) [### High Power RF-DAC

This project investigates the next generation of high power RF-DACs and digital intensive receivers](https://microelectronics.tudelft.nl/Research/project.php?id=131&ti=10) ### GaN-based PiN Diodes for RF Power Limiter Application [### PIPP OLFAR: Breakthrough technologies for Interferometry in Space

Combine multiple satellites into one single scientific instrument: a radio telescope in space](https://microelectronics.tudelft.nl/Research/project.php?id=124&ti=10) [### Energy Efficient Wideband Transmitter, NXP Partnership ‘Advanced 5G Solutions’

This project providing enhanced average efficiency in wideband wireless transmitters while withstanding the changing load conditions that can occur in handheld devices and MIMO/smart-antenna communication systems.](https://microelectronics.tudelft.nl/Research/project.php?id=129&ti=10) [### Programmable Systems for Intelligence in Automobiles

(a) fail-operational sensor-fusion framework, (b) dependable embedded E/E architectures, (c) safety compliant integration of AI approaches for object recognition, scene understanding, and decision making](https://microelectronics.tudelft.nl/Research/project.php?id=120&ti=10) [### WAtt LEvel transmitters at mm-waves

The WhALE project targets, employing complementary expertise in the field of electromagnetics, system integration and integrated circuit design, to develop the next generation of mmwave transmitters.](https://microelectronics.tudelft.nl/Research/project.php?id=111&ti=10) ### High performance devices based on advanced materials [### Artificial Dielectrics for High-frequency On-Chip antennas

Goal: To achieve optimized, reliable, flexible and low-cost manufacturing of the breakthrough technology of Artificial Dielectric (AD) layers, as the solution to the surface-wave problem of high-frequency on-chip antennas.](https://microelectronics.tudelft.nl/Research/project.php?id=110&ti=10) [### Task-cognizant sparse sensing for inference

Low-cost sparse sensing designed for specific tasks](https://microelectronics.tudelft.nl/Research/project.php?id=101&ti=10) [### STW Take-off phase1: High gamma vector network analysis

HΓ-VNA targets the implementation of a new measurement technique, enabling accurate characterization of electronic devices as well as biological and organic materials, which share the common characteristic of presenting extreme loading condition in the RF/Microwave frequency range.](https://microelectronics.tudelft.nl/Research/project.php?id=104&ti=10) [### Signal processing over wireless acoustic sensor networks

Microphone subset selection for WASNs](https://microelectronics.tudelft.nl/Research/project.php?id=102&ti=10) [### 3D Elements For Phased Array Systems

The goal is to develop 3D antenna elements for phased arrays with integrated filtering solutions and suitable pattern shaping.](https://microelectronics.tudelft.nl/Research/project.php?id=99&ti=10) ### AlGaN/GaN High Electron Mobility Transistor (HEMT) Gas Sensor Platform Development [### A Single-Photon, Time-Resolved Image Sensor for Low-Light-Level Vision

The project aims for a CMOS photon-counting image sensor with high timing resolution](https://microelectronics.tudelft.nl/Research/project.php?id=90&ti=10) [### SuperGPS: Accurate timing and positioning

Accurate timing and positioning through an optical-wireless distributed time and frequency reference](https://microelectronics.tudelft.nl/Research/project.php?id=76&ti=10) [### Smart Energy Efficient Digital Communication

SEEDCOM aims for fully integrated energy efficient wideband transmitters](https://microelectronics.tudelft.nl/Research/project.php?id=95&ti=10) [### Efficient on-chip antennas for terahertz applications

Silicon technology promises affordable integrated THz systems, but at the cost of limited achievable efficiency. Antenna solutions to overcome this bottleneck efficiency will be investigated.](https://microelectronics.tudelft.nl/Research/project.php?id=100&ti=10) [### smart Everything everywhere Access to content through Small cells Technologies

EAST is focused on the development of Small cell technologies for 5G applications up to 6 GHz](https://microelectronics.tudelft.nl/Research/project.php?id=96&ti=10) [### RESIST

Design approach for resilient integrated electronic systems in automotive and avionics applications](https://microelectronics.tudelft.nl/Research/project.php?id=94&ti=10) [### PulsarPlane: Worldwide Air Transport Operations

We investigate if pulsar navigation for aviation is positive, and analyse the impact on aviation.](https://microelectronics.tudelft.nl/Research/project.php?id=71&ti=10) [### Metrology for optical and RF communication systems

To develop traceable methods for RF power and MIMO antenna measurements and cost-effective metrological solutions for smart, adaptive, reconfigurable and wearable antennas.](https://microelectronics.tudelft.nl/Research/project.php?id=81&ti=10) [### Kinetic Inductance Detectors: a new imaging technology for observations in and from space

Imaging arrays of kinetic inductance detectors for space-based astronomical and earth observation applications](https://microelectronics.tudelft.nl/Research/project.php?id=18&ti=10) [### Ultra WideBand (UWB) Radio Indoor Positioning System

How can we accomplish effective, scalable and low-cost indoor positioning systems for practical applications using UWB radio signals?](https://microelectronics.tudelft.nl/Research/project.php?id=8&ti=10) [### Dotseven

DOTSEVEN is a very ambitious 3.5 year R&D project targeting the development of silicon germanium (SiGe) heterojunction bipolar transistor (HBT) technologies with cut-off frequencies (fmax) up to 700 GHz.](https://microelectronics.tudelft.nl/Research/project.php?id=67&ti=10) [### Sensing Heterogeneous Information Network Environment

How can heterogeneous resources (people, mobile sensors, fixed sensors, social media, information systems, etc.) self-organize for answering information needs?](https://microelectronics.tudelft.nl/Research/project.php?id=10&ti=10) [### Extreme Wireless Distributed Systems

EWiDS is one of the projects of the COMMIT program, concentrating on extreme wireless distributed systems. In EWiDS, we aim at a better understanding of using wireless, user-centric sensor technology to monitor and manage the behavior of people.](https://microelectronics.tudelft.nl/Research/project.php?id=72&ti=10) [### From RF to MMW and THz silicon SoC technologies

Silicon technology platforms for emerging RF, millimetre-wave and THz consumer applications.](https://microelectronics.tudelft.nl/Research/project.php?id=14&ti=10) [### Autonomous, self-learning, optimal and complete underwater systems

Can we develop robust, cooperative and cognitive communication for Autonomous Underwater Vehicles?](https://microelectronics.tudelft.nl/Research/project.php?id=6&ti=10) [### Reliable and fast wireless communication for lithography machines

Connecting a sensor network on a moving platform to a control unit; this requires high-speed links with low latency, and accurate wireless clock synchronization.](https://microelectronics.tudelft.nl/Research/project.php?id=4&ti=10) [### Separation of AIS Transponder Signals

AIS is a VHF communication system for ship transponders. Seen from a satellite, transponder messages overlap. The aim is to separate these using an antenna array.](https://microelectronics.tudelft.nl/Research/project.php?id=3&ti=10) [### Speech enhancement in wireless acoustic sensor networks

Distributed speech enhancement algorithms using a large number of microphones distributed in the environment](https://microelectronics.tudelft.nl/Research/project.php?id=21&ti=10) [### Low-frequency distributed radio telescope in space

Below 15 MHz, the ionosphere blocks EM signals from the sky. Therefore, can we design a radio telescope in space, using a swarm of inexpensive nano-satellites? Accurate localization and clock recovery is important.](https://microelectronics.tudelft.nl/Research/project.php?id=5&ti=10) [### Signal Processing for Self-Organizing Wireless Networks

Mathematical foundations to develop large self-organizing networks based on cognitive radio devices that are capable of sensing the radio spectrum and adapt accordingly.](https://microelectronics.tudelft.nl/Research/project.php?id=2&ti=10)

News

[#### Record presence for the department at ISSCC 2026

At this year’s International Solid-State Circuits Conference (ISSCC) - the world’s leading conference on chip design (the Chip Olympics), TU Delft presented a record 14 papers and 1 forum talk, out of a total of 39 accepted EU papers.

More ...](https://microelectronics.tudelft.nl/News/indexitem.php?mi=733)

Agenda

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