Zbontar, J., Knoll, F., Sriram, A., Murrell, T., Huang, Z., Muckley, M.J., Defazio, A., Stern, R., Johnson, P., Bruno, M., et al.: fastmri: An open dataset and benchmarks for accelerated mri. arXiv preprint arXiv:1811.08839 (2018)
Howard, I.P., Rogers, B.J.: Binocular Vision and Stereopsis. Oxford University Press, USA (1995)
Helbig, H.B., Ernst, M.O.: Optimal integration of shape information from vision and touch. Experimental brain research 179, 595–606 (2007)
Ernst, M.O., Banks, M.S.: Humans integrate visual and haptic information in a statistically optimal fashion. Nature 415(6870), 429–433 (2002)
Article CAS PubMed Google Scholar
Lobachev, O., Berthold, M., Pfeffer, H., Guthe, M., Steiniger, B.S.: Inspection of histological 3d reconstructions in virtual reality. Frontiers in Virtual Reality 2, 628449 (2021)
Jain, S., Gao, Y., Yeo, T.T., Ngiam, K.Y.: Use of mixed reality in neuro-oncology: A single centre experience. Life 13(2), 398 (2023)
Article PubMed PubMed Central Google Scholar
Zörnack, G., Weiss, J., Schummers, G., Eck, U., Navab, N.: Evaluating surface visualization methods in semi-transparent volume rendering in virtual reality. Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization 9(4), 339–348 (2021)
Schloss, K.B., Schoenlein, M.A., Tredinnick, R., Smith, S., Miller, N., Racey, C., Castro, C., Rokers, B.: The uw virtual brain project: An immersive approach to teaching functional neuroanatomy. Translational Issues in Psychological Science 7(3), 297 (2021)
Staubli, S.M., Maloca, P., Kuemmerli, C., Kunz, J., Dirnberger, A.S., Allemann, A., Gehweiler, J., Soysal, S., Droeser, R., Däster, S., et al.: Magnetic resonance cholangiopancreatography enhanced by virtual reality as a novel tool to improve the understanding of biliary anatomy and the teaching of surgical trainees. Frontiers in Surgery 9 (2022)
Syamlan, A., Mampaey, T., Denis, K., Vander Poorten, E., Tjahjowidodo, T., et al: A virtual spine construction algorithm for a patient-specific pedicle screw surgical simulators. In: 2022 IEEE Symposium Series on Computational Intelligence (SSCI), pp. 1493–1500 (2022). IEEE
Xu, X., Qiu, H., Jia, Q., Dong, Y., Yao, Z., Xie, W., Guo, H., Yuan, H., Zhuang, J., Huang, M., Shi, Y.: Ai-chd: An ai-based framework for cost-effective surgical telementoring of congenital heart disease. Commun. ACM 64(12), 66–74 (2021) 10.1145/3450409
Chheang, V., Saalfeld, P., Joeres, F., Boedecker, C., Huber, T., Huettl, F., Lang, H., Preim, B., Hansen, C.: A collaborative virtual reality environment for liver surgery planning. Computers & Graphics 99, 234–246 (2021)
Steiniger, B.S., Pfeffer, H., Gaffling, S., Lobachev, O.: The human splenic microcirculation is entirely open as shown by 3d models in virtual reality. Scientific Reports 12(1), 16487 (2022)
Article CAS PubMed PubMed Central Google Scholar
Reinschluessel, A.V., Muender, T., Döring, T., Uslar, V.N., Lück, T., Weyhe, D., Schenk, A., Malaka, R.: A study on the size of tangible organ-shaped controllers for exploring medical data in vr. In: Extended Abstracts of the 2021 CHI Conference on Human Factors in Computing Systems, pp. 1–7 (2021)
Muender, T., Reinschluessel, A.V., Salzmann, D., Lück, T., Schenk, A., Weyhe, D., Döring, T., Malaka, R.: Evaluating soft organ-shaped tangibles for medical virtual reality. In: CHI Conference on Human Factors in Computing Systems Extended Abstracts, pp. 1–8 (2022)
Faludi, B., Zoller, E.I., Gerig, N., Zam, A., Rauter, G., Cattin, P.C.: Direct visual and haptic volume rendering of medical data sets for an immersive exploration in virtual reality. In: Medical Image Computing and Computer Assisted Intervention–MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part V 22, pp. 29–37 (2019). Springer
Zoller, E.I., Faludi, B., Gerig, N., Jost, G.F., Cattin, P.C., Rauter, G.: Force quantification and simulation of pedicle screw tract palpation using direct visuo-haptic volume rendering. International journal of computer assisted radiology and surgery 15, 1797–1805 (2020)
Article PubMed PubMed Central Google Scholar
Rantamaa, H.-R., Kangas, J., Kumar, S.K., Mehtonen, H., Järnstedt, J., Raisamo, R.: Comparison of a vr stylus with a controller, hand tracking, and a mouse for object manipulation and medical marking tasks in virtual reality. Applied Sciences 13(4), 2251 (2023)
Allgaier, M., Neyazi, B., Sandalcioglu, I.E., Preim, B., Saalfeld, S.: Immersive vr training system for clipping intracranial aneurysms. Current Directions in Biomedical Engineering 8(1), 9–12 (2022)
Wang, D., Song, M., Naqash, A., Zheng, Y., Xu, W., Zhang, Y.: Toward whole-hand kinesthetic feedback: A survey of force feedback gloves. IEEE transactions on haptics 12(2), 189–204 (2018)
Wang, D., Yuan, G., Shiyi, L., Zhang, Y., Weiliang, X., Jing, X.: Haptic display for virtual reality: progress and challenges. Virtual Reality & Intelligent Hardware 1(2), 136–162 (2019)
Krieger, K.: A vr serious game framework for haptic performance evaluation. PhD thesis, Bielefeld University (submitted)
Krieger, K., Leins, D.P., Markmann, T., Haschke, R.: Open-source hand model configuration tool (hmct). Work-in-Progress Paper at 2023 IEEE Worldhaptics Conference (2023)
SenseGlove: The New Sense in VR for enterprise. https://www.senseglove.com/product/nova/. [Online; accessed 8-March-2023] (2023)
Wasserthal, J., Breit, H.-C., Meyer, M.T., Pradella, M., Hinck, D., Sauter, A.W., Heye, T., Boll, D.T., Cyriac, J., Yang, S., Bach, M., Segeroth, M.: Totalsegmentator: Robust segmentation of 104 anatomic structures in ct images. Radiology: Artificial Intelligence 5(5) (2023) 10.1148/ryai.230024
Li, J., Pepe, A., Gsaxner, C., et al.: Medshapenet - a large-scale dataset of 3d medical shapes for computer vision. arXiv preprint arXiv:2308.16139 (2023)
Brooke, J.: Sus: A quick and dirty usability scale. Usability Eval. Ind. 189 (1995)
Sanchez-Vives, M.V., Slater, M.: From presence to consciousness through virtual reality. Nature reviews neuroscience 6(4), 332–339 (2005)
Article CAS PubMed Google Scholar
Schubert, T., Friedmann, F., Regenbrecht, H.: The experience of presence: Factor analytic insights. Presence: Teleoperators & Virtual Environments 10(3), 266–281 (2001)
Liu, J., Zheng, H., Poh, P.S., Machens, H.-G., Schilling, A.F.: Hydrogels for engineering of perfusable vascular networks. International journal of molecular sciences 16(7), 15997–16016 (2015)
Article CAS PubMed PubMed Central Google Scholar
Bai, J., Lu, F., Zhang, K., et al.: ONNX: Open Neural Network Exchange. GitHub (2019)
留言 (0)