PhD Opportunities 2026 | Multi-Band Fusion in JCAS & Unconventional Phased Array Topologies at TU Delft

PhD Opportunities 2026 | Multi-Band Fusion in JCAS & Unconventional Phased Array Topologies at TU Delft

Delft University of Technology (TU Delft) invites applications for two fully funded PhD positions in next-generation wireless communication, sensing, and radar technologies. These research opportunities focus on 6G communication systems, Integrated Sensing and Communication (ISAC), radio imaging, advanced phased-array antennas, and microwave engineering, contributing to future intelligent wireless networks and sensing platforms.

Available PhD Positions

1. PhD Position: Multi-Band Fusion in JCAS

Develop next-generation radio imaging algorithms for Integrated Sensing and Communication (ISAC) systems that combine multiple frequency bands to enable high-resolution environmental sensing.

2. PhD Position: Unconventional Phased Array Topologies

Research and develop novel hybrid antenna array-lens architectures for future 6G wireless communication, satellite communications, radar systems, and microwave sensing applications.

Position Overview

Research Areas

The selected candidates will work on cutting-edge topics including:

• 6G Wireless Networks

• Integrated Sensing and Communication (ISAC)

• Joint Communication and Sensing (JCAS)

• Radio Imaging

• Synthetic Aperture Radar (SAR)

• Deep Learning for Wireless Systems

• Signal Processing

• Millimeter-Wave Communications

• Phased Array Antennas

• Microwave Engineering

• Electromagnetic Modeling

• Radar Sensing

• AI for Wireless Communications

Key Responsibilities

Multi-Band Fusion in JCAS

The selected researcher will:

• Design multiband radio imaging algorithms for future communication systems.

• Develop imaging methods combining signal processing and deep learning.

• Conduct research on ISAC and JCAS technologies.

• Analyze experimental datasets collected through European research collaborations.

• Develop sensing technologies for healthcare, infrastructure monitoring, and environmental applications.

Unconventional Phased Array Topologies

The selected researcher will:

• Develop innovative phased-array and hybrid array-lens antenna architectures.

• Design sparse, clustered, and aperiodic antenna array topologies.

• Perform electromagnetic modeling, optimization, and antenna synthesis.

• Build and experimentally validate advanced antenna prototypes.

• Utilize additive manufacturing and advanced microwave measurement facilities.

Eligibility Criteria

Applicants should possess:

• A Master's degree in Electrical Engineering, Microwave Engineering, Telecommunications, Applied Physics, or a related discipline.

• Strong background in wireless communication, antennas, electromagnetics, radar, signal processing, or machine learning.

• Programming experience in scientific computing environments.

• Excellent analytical and research skills.

• Strong written and verbal English communication abilities.

Why Join TU Delft?

Successful candidates will benefit from:

• Fully funded doctoral research at one of Europe's leading technical universities.

• Access to world-class microwave laboratories and state-of-the-art experimental facilities.

• Collaboration with leading European academic and industrial research partners.

• Opportunities to contribute to future 6G, ISAC, radar sensing, and wireless communication technologies.

• An international and multidisciplinary research environment with excellent career development opportunities.

How to Apply

Interested candidates should submit their application through the official TU Delft careers portal, including all required academic documents and supporting materials as specified in the official vacancy announcements.

About TU Delft

Delft University of Technology (TU Delft) is internationally recognized for pioneering research in engineering, wireless communications, artificial intelligence, microwave technologies, and sustainable innovation. Its Faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS) provides an outstanding research environment for developing next-generation communication and sensing technologies with global societal impact.

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