{"id":25466,"date":"2026-03-18T11:09:00","date_gmt":"2026-03-18T10:09:00","guid":{"rendered":"https:\/\/saarland-informatics-campus.de\/?post_type=sic_news&#038;p=25466"},"modified":"2026-03-19T11:44:49","modified_gmt":"2026-03-19T10:44:49","slug":"quantum-computing-meets-visual-computing-new-paths-for-image-reconstruction-2","status":"publish","type":"sic_news","link":"https:\/\/saarland-informatics-campus.de\/en\/piece-of-news\/quantum-computing-meets-visual-computing-new-paths-for-image-reconstruction-2\/","title":{"rendered":"Quantum Computing Meets Visual Computing: New Paths for Image Reconstruction"},"content":{"rendered":"<header class=\"content__hd\">\n<h3 class=\"content__subttl \">Max Planck researchers investigate \u201cquantum neural networks\u201d as a building block for more efficient visual-computing models.<\/h3>\n<p><strong>The \u201c4D Quantum Computer Vision\u201d research group at the Max Planck Institute (MPI) for Informatics in Saarbr\u00fccken, Germany, is investigating the potential of quantum computing for computer-based image processing, also known as visual computing. A new hybrid model, developed together with partners from the University of Udine and the University of Naples Federico II, combines a so-called \u201cquantum neural network\u201d with a classical neural network. In tests on established metrics the model outperforms previous methods while using significantly fewer network connections and requiring a shorter training time.<\/strong><\/p>\n<p>Researching technologies that cannot yet keep up with the state of the art today, but have the potential to transform entire fields tomorrow\u2014that is the aim of basic research. One such technology is quantum computing. Quantum computers are still rare, difficult to access, and in many applications slower than classical computers. At the same time, quantum computers promise major advantages thanks to their special properties: the ability to represent many quantum states simultaneously (superposition), and to link qubits into a coherent shared state so they can no longer be regarded as independent of one another (entanglement). Investigating where these properties can be beneficial is a new and active field of research.<\/p>\n<p>At the MPI for Informatics, the \u201c4D Quantum Computer Vision\u201d group led by Dr. Vladislav Golyanik is exploring how quantum computing could advance computer-based image processing, particularly in visual computing and 3D computer vision. \u201cOn the one hand, we look for alternative \u2018quantum solution paths\u2019 for problems that are already known. Beyond that, of course, we also look for entirely new research questions that can benefit from quantum computing,\u201d explains Vladislav Golyanik. The goal is ambitious: in the future, the team aims to reconstruct arbitrary real-world scenes photorealistically on a computer from just a few recorded images\u2014and from novel, unrecorded viewpoints\u2014even when objects in the scene move or deform. Such tasks are extremely computationally intensive, pushing even modern high-performance computers to their limits.<\/p>\n<p>To address this challenge, the group is currently working on so-called \u201cquantum neural networks\u201d (QNNs). In such models, quantum circuits, usually simulated on classical hardware, are treated as trainable functions, similar to classical machine learning, and are adjusted using data-driven training and optimization methods.<\/p>\n<p>In a recently published paper titled \u201cQuantum Visual Fields with Neural Amplitude Encoding,\u201d presented in December 2025 at the Conference on Neural Information Processing Systems (NeurIPS), the team\u2014consisting of PhD student Shuteng Wang, Dr. Vladislav Golyanik, and Professor Christian Theobalt, Scientific Director of the Visual Computing and Artificial Intelligence department at the MPI for Informatics\u2014describes a method for processing image data so that QNNs can handle it more efficiently. To this end, the researchers developed an initial hybrid model that combines a classical neural network with a QNN to encode input signals in 2D or 3D, as well as collections of such signals.<\/p>\n<p>Building on this, a follow-up project titled \u201cQNeRF: Neural Radiance Fields on a Simulated Gate-based Quantum Computer\u201d was carried out together with partners from the University of Udine and the University of Naples Federico II. In this project, the researchers developed a hybrid model for \u201cnovel-viewpoint rendering,\u201d that is, synthesizing new viewpoints of objects or scenes that were not contained in the original data. In experiments, the new model achieved comparable or better quality on the established PSNR metric than previous approaches, while using less than half the required network parameters and requiring fewer training steps. \u201cFor our tests, we simulated the quantum circuits on classical hardware. That meant the absolute training time was higher, but we were able to reduce the number of training steps, which could indicate shorter training times on \u2018real\u2019 quantum hardware in the future,\u201d explains Golyanik. \u201cQNeRF\u201d is currently publicly available as a preprint.<\/p>\n<p>Additionally, the work of the research group 4D Quantum Computer Vision is funded by the German Research Foundation (DFG) through the project \u201cApplied Quantum Computing for Computer Vision.\u201d<\/p>\n<p>Professor Christian Theobalt says: \u201cFor us, quantum computing is a bet on the future, a high-risk, high-gain approach: we want to understand early on which fundamental principles of quantum computing could truly be useful, so that we are scientifically and technologically prepared when quantum resources become more widely available.\u201d<\/p>\n<p>In the long term, the ability to reconstruct complex scenes more efficiently could enable applications in areas such as robotics, manufacturing, medicine, or film and visual effects\u2014anywhere computers need to represent reliable 3D information from camera footage and compute novel viewpoints.<\/p>\n<p><strong>Original publications:<\/strong><\/p>\n<p>Wang, Shuteng; Theobalt, Christian; and Golyanik, Vladislav. \u201cQuantum Visual Fields with Neural Amplitude Encoding.\u201d\u00a0<i>Neural Information Processing Systems (NeurIPS)<\/i>, 2025.<br \/>\nProject page:\u00a0<a href=\"https:\/\/4dqv.mpi-inf.mpg.de\/QVF\/\" target=\"_blank\" rel=\"noopener noreferrer\"><u>https:\/\/4dqv.mpi-inf.mpg.de\/QVF\/<\/u><\/a><\/p>\n<p>Lizzio Bosco, Daniele; Wang, Shuteng; Serra, Giuseppe; and Golyanik, Vladislav. \u201cQNeRF: Neural Radiance Fields on a Simulated Gate-based Quantum Computer.\u201d\u00a0<i>arXiv preprint<\/i>\u00a0arXiv:2601.05250, 2026.<br \/>\nProject page:\u00a0<a href=\"https:\/\/4dqv.mpi-inf.mpg.de\/QNeRF\/\" target=\"_blank\" rel=\"noopener noreferrer\"><u>https:\/\/4dqv.mpi-inf.mpg.de\/QNeRF\/<\/u><\/a><\/p>\n<p><strong>Further information:<\/strong><\/p>\n<p>Website \u00a0of the 4D Quantum Computer Vision group:\u00a0<a href=\"https:\/\/4dqv.mpi-inf.mpg.de\/\" target=\"_blank\" rel=\"noopener noreferrer\">https:\/\/4dqv.mpi-inf.mpg.de\/<\/a><\/p>\n<p>DFG project \u201cApplied Quantum Computer Vision\u201d:\u00a0<a class=\"link-external\" href=\"https:\/\/gepris.dfg.de\/gepris\/projekt\/534951134?language=en\" target=\"_blank\" rel=\"noopener noreferrer\">https:\/\/gepris.dfg.de\/gepris\/projekt\/534951134?language=en<\/a><\/p>\n<p><strong>Scientific contact:<\/strong><br \/>\nDr. Vladislav Golyanik<br \/>\nResearch Group Leader, MPI for Informatics<br \/>\nE-Mail:\u00a0<a href=\"mailto:golyanik@mpi-inf.mpg.de\"><u>golyanik@mpi-inf.mpg.de<\/u><\/a><\/p>\n<p>Prof. Dr. Christian Theobalt<br \/>\nScientific Director, MPI for Informatics<\/p>\n<p><strong>Editor and press contact:<\/strong><br \/>\nPhilipp Zapf-Schramm<br \/>\nMax-Planck-Institut f\u00fcr Informatik<br \/>\nTel: +49 681 9325 4509<br \/>\nE-Mail:\u00a0<a href=\"mailto:pzs@mpi-inf.mpg.de\"><u>pzs@mpi-inf.mpg.de<\/u><\/a><\/p>\n<\/header>\n","protected":false},"excerpt":{"rendered":"<p>Max Planck researchers investigate &ldquo;quantum neural networks&rdquo; as a building block for more efficient visual-computing models. The &ldquo;4D Quantum Computer Vision&rdquo; research group at the Max Planck Institute (MPI) for Informatics in Saarbr&uuml;cken, Germany, is investigating the potential of quantum computing for computer-based image processing, also known as visual computing. A new hybrid model, developed [&hellip;]<\/p>\n","protected":false},"featured_media":25467,"menu_order":0,"template":"","meta":{"_et_pb_use_builder":"","_et_pb_old_content":"","_et_gb_content_width":""},"sic_news-types":[56,59],"class_list":["post-25466","sic_news","type-sic_news","status-publish","has-post-thumbnail","hentry","sic_news-types-mpi-inf-en","sic_news-types-press-release-en"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.3 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Quantum Computing Meets Visual Computing: New Paths for Image Reconstruction - Saarland Informatics Campus<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/saarland-informatics-campus.de\/en\/piece-of-news\/quantum-computing-meets-visual-computing-new-paths-for-image-reconstruction-2\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Quantum Computing Meets Visual Computing: New Paths for Image Reconstruction - Saarland Informatics Campus\" \/>\n<meta property=\"og:description\" content=\"Max Planck researchers investigate &ldquo;quantum neural networks&rdquo; as a building block for more efficient visual-computing models. The &ldquo;4D Quantum Computer Vision&rdquo; research group at the Max Planck Institute (MPI) for Informatics in Saarbr&uuml;cken, Germany, is investigating the potential of quantum computing for computer-based image processing, also known as visual computing. 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