Within HI, the Applied Computer Vision Lab (ACVL) at DKFZ develops state-of-the-art methods for image analysis and machine learning, supports in the development of custom AI-powered solutions, and promotes robust evaluation and benchmarking practices for imaging algorithms. We are seeking a highly motivated individual to join an interdisciplinary team at the interface of natural language processing, computer vision, machine learning, and scientific imaging. * Integrating state-of-the-art computer vision frameworks like foundation models into AI-assisted workflows - We are looking for a highly motivated and creative researcher or engineer with a strong interest in both computer vision and modern AI systems. * A master's degree or PhD in computer science, data science, physics, mathematics, or a related discipline * Experience in computer vision and deep learning
Within HI, the Applied Computer Vision Lab (ACVL) at DKFZ develops state-of-the-art methods for image analysis and machine learning, supports in the development of custom AI-powered solutions, and promotes robust evaluation and benchmarking practices for imaging algorithms. We are seeking a highly motivated individual to join an interdisciplinary team at the interface of natural language processing, computer vision, machine learning, and scientific imaging. * Integrating state-of-the-art computer vision frameworks like foundation models into AI-assisted workflows - We are looking for a highly motivated and creative researcher or engineer with a strong interest in both computer vision and modern AI systems. * A master's degree or PhD in computer science, data science, physics, mathematics, or a related discipline * Experience in computer vision and deep learning
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world. * Degree in Computer Science, Software Engineering, Physics, or related fields
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world. * Degree in Computer Science, Software Engineering, Physics, or related fields
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Im Grundlagenstudium werden die Fächer Mathematik, Physik, Grundlagen der Elektrotechnik, Informatik, Digitaltechnik, Elektronik und Messtechnik, Systemtheorie, Mikrocomputertechnik und Regelungstechnik unterrichtet.
Im Grundlagenstudium werden die Fächer Mathematik, Physik, Grundlagen der Elektrotechnik, Informatik, Digitaltechnik, Elektronik und Messtechnik, Systemtheorie, Mikrocomputertechnik und Regelungstechnik unterrichtet.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
Dabei nutzen wir eine Vielzahl technologischer Disziplinen – darunter Physik, Optik, Chemie und Algorithmen –, um Hardware- und Softwarelösungen zu entwickeln, die nahezu jeden modernen Computerchip weltweit vermessen.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.
We leverage a variety of technological disciplines – including physics, optics, chemistry, and algorithms – to develop hardware and software solutions that measure virtually every modern computer chip in the world.