@inproceedings{WoeldeckeVierjahnFlaskoetal.2009, author = {W{\"o}ldecke, Bj{\"o}rn and Vierjahn, Tom and Flasko, Matthias and Herder, Jens and Geiger, Christian}, title = {Steering actors through a virtual set employing vibro-tactile feedback}, series = {TEI '09 Proceedings of the 3rd International Conference on Tangible and Embedded Interaction}, booktitle = {TEI '09 Proceedings of the 3rd International Conference on Tangible and Embedded Interaction}, publisher = {ACM}, address = {New York}, isbn = {978-1-60558-493-5}, doi = {10.1145/1517664.1517703}, pages = {169 -- 174}, year = {2009}, abstract = {Actors in virtual studio productions are faced with the challenge that they have to interact with invisible virtual objects because these elements are rendered separately and combined with the real image later in the production process. Virtual sets typically use static virtual elements or animated objects with predefined behavior so that actors can practice their performance and errors can be corrected in the post production. With the demand for inexpensive live recording and interactive TV productions, virtual objects will be dynamically rendered at arbitrary positions that cannot be predicted by the actor. Perceptive aids have to be employed to support a natural interaction with these objects. In our work we study the effect of haptic feedback for a simple form of interaction. Actors are equipped with a custom built haptic belt and get vibrotactile feedback during a small navigational task (path following). We present a prototype of a wireless vibrotactile feedback device and a small framework for evaluating haptic feedback in a virtual set environment. Results from an initial pilot study indicate that vibrotactile feedback is a suitable non-visual aid for interaction that is at least comparable to audio-visual alternatives used in virtual set productions.}, language = {en} } @inproceedings{HerderNeiderKinuwaki2007, author = {Herder, Jens and Neider, Christian and Kinuwaki, Shinichi}, title = {HDR-based lighting estimation for virtual studio (TV) environments}, series = {10th International Conference on Human and Computer}, booktitle = {10th International Conference on Human and Computer}, address = {D{\"u}sseldorf, Aizu-Wakamatsu}, pages = {111 -- 117}, year = {2007}, abstract = {Two high dynamic range HDR environments maps based on video streams from fish-eye lens cameras are used for generating virtual lights in a virtual set renderer. The task of realistic virtual light setup of scenes using captured environment maps might be eased as well as visual quality improves. We discuss the light setting problem for virtual studio tv productions which have mixed scenes of real objects, actors, virtual objects and virtual backgrounds. Benefits of hdr interactive light control are that the real light in the studio does not have to be remodeled and the artistic impression by using the light in the studio is also captured. An analysis of system requirements identifies technical challenges. We discuss the properties of a prototype system including test production.}, language = {en} } @inproceedings{HerderBuentigDaemenetal.2014, author = {Herder, Jens and B{\"u}ntig, Fabian and Daemen, Jeff and Lang, Jaroslaw and L{\"u}ck, Florian and S{\"a}ger, Mitja and S{\"o}rensen, Roluf and Hermanni, Markus and Vonolfen, Wolfgang}, title = {Subtle Animations using Talent Tracking in a Virtual (TV) Studio}, series = {17th International Conference on Human and Computer}, booktitle = {17th International Conference on Human and Computer}, address = {Hamamatsu/Aizu-Wakamatsu/Duesseldorf}, url = {http://nbn-resolving.de/urn:nbn:de:hbz:due62-opus-16009}, pages = {6}, year = {2014}, abstract = {Markerless talent tracking is widely used for interactions and animations within virtual environments. In a virtual (tv) studio talents could be overburden by interaction tasks because camera and text require extensive attention. We take a look into animations and inter- actions within a studio, which do not require any special attention or learning. We show the generation of an artificial shadow from a talent, which ease the keying process, where separation of real shadows from the background is a difficult task. We also demonstrate animations of footsteps and dust. Furthermore, capturing talents' height can also be used to adjust the parameters of elements in the virtual environment, like the position and scaling of a virtual display. In addition to the talents, a rigid body was tracked as placeholder for graphics, easing the interaction tasks for a talent. Two test productions show the possibilities, which subtle animations offer. In the second production, the rendering was improved (shadows, filtering, normal maps, ...) and instead of using the rigid body to move an object (a flag), the animation was only controlled by the hand's position.}, language = {en} } @inproceedings{DaemenHaufsBrusbergHerder2013, author = {Daemen, Jeff and Haufs-Brusberg, Peter and Herder, Jens}, title = {Markerless Actor Tracking for Virtual (TV) Studio Applications}, series = {2013 International Joint Conference on Awareness Science and Technology \& Ubi-Media Computing (iCAST 2013 \& UMEDIA 2013)}, booktitle = {2013 International Joint Conference on Awareness Science and Technology \& Ubi-Media Computing (iCAST 2013 \& UMEDIA 2013)}, publisher = {IEEE}, address = {Aizu-Wakamatsu}, isbn = {978-1-4799-2364-9}, doi = {10.1109/ICAwST.2013.6765544}, pages = {790 -- 795}, year = {2013}, abstract = {Virtual (tv) studios gain much more acceptance through improvements in computer graphics and camera tracking. Still commercial studios cannot have full interaction between actors and virtual scene because actors data are not completely digital available as well as the feedback for actors is still not sufficient. Markerless full body tracking might revolutionize virtual studio technology as it allows better interaction between real and virtual world. This article reports about using a markerless actor tracking in a virtual studio with a tracking volume of nearly 40 cubic meter enabling up to three actors within the green box. The tracking is used for resolving the occlusion between virtual objects and actors so that the Tenderer can output automatically a mask for virtual objects in the foreground in case the actor is behind. It is also used for triggering functions scripted within the Tenderer engine, which are attached to virtual objects, starting any kind of action (e.g., animation). Last but not least the system is used for controlling avatars within the virtual set. All tracking and rendering is done within a studio frame rate of 50 Hz with about 3 frames delay. The markerless actor tracking within virtual studios is evaluated by experts using an interview approach. The statistical evaluation is based on a questionnaire.}, language = {en} } @inproceedings{HerderBrosdaDjuderijaetal.2011, author = {Herder, Jens and Brosda, Constantin and Djuderija, Sascha and Drochtert, Daniel and Genc, {\"O}mer and Joeres, Stephan and Kellerberg, Patrick and Looschen, Simon and Geiger, Christian and W{\"o}ldecke, Bj{\"o}rn}, title = {TouchPlanVS - A Tangible Multitouch Planning System for Virtual TV Studio Productions}, series = {2011 IEEE Symposium on 3D User Interfaces (3DUI)}, booktitle = {2011 IEEE Symposium on 3D User Interfaces (3DUI)}, publisher = {IEEE}, address = {Singapore}, isbn = {978-1-4577-0064-4}, doi = {10.1109/3DUI.2011.5759226}, pages = {103 -- 104}, year = {2011}, abstract = {This article presents a new approach of integrating tangible user feedback in todays virtual TV studio productions. We describe a tangible multitouch planning system, enabling multiple users to prepare and customize scene flow and settings. Users can collaboratively view and interact with virtual objects by using a tangible user interface on a shared multitouch surface. The in a 2D setting created TV scenes are simultaneously rendered on an external monitor, using a production/target renderer in 3D. Thereby the user experiences a closer reproduction of a final production. Subsequently, users are able to join together the scenes into one complex plot. Within the developing process, a video prototype of the system shows the user interaction and enables early reviews and evaluations. The requirement analysis is based on expert interviews.}, language = {en} } @inproceedings{BrosdaDaemenDjuderijaetal.2012, author = {Brosda, Constantin and Daemen, Jeff and Djuderija, Sascha and Joeres, Stephan and Langer, Oleg and Schweitzer, Andre and Wilhelm, Andreas and Herder, Jens}, title = {TouchPlanVS Lite - A Tablet-based Tangible Multitouch Planning System for Virtual TV Studio Productions}, series = {Proceedings of the 2012 Joint International Conference on Human-Centered Computer Environments}, booktitle = {Proceedings of the 2012 Joint International Conference on Human-Centered Computer Environments}, publisher = {ACM}, address = {New York}, isbn = {978-1-4503-1191-5}, pages = {64 -- 67}, year = {2012}, abstract = {This paper presents a mobile approach of integrating tangible user feedback in today's virtual TV studio productions. We describe a tangible multitouch planning system, enabling a single user to prepare and customize scene flow and settings. Users can view and interact with virtual objects by using a tangible user interface on a capacitive multitouch surface. In a 2D setting created TV scenes are simultaneously rendered as separate view using a production/target renderer in 3D. Thereby the user experiences a closer reproduction of a final production and set assets can be reused. Subsequently, a user can arrange scenes on a timeline while maintaining different versions/sequences. The system consists of a tablet and a workstation, which does all application processing and rendering. The tablet is just an interface connected via wireless LAN.}, language = {en} } @inproceedings{MarinosGeigerHerder2012, author = {Marinos, Dionysios and Geiger, Christian and Herder, Jens}, title = {Large-Area Moderator Tracking and Demonstrational Configuration of Position Based Interactions for Virtual Studio}, series = {EuroITV '12 Proceedings of the 10th European Conference on Interactive TV and Video}, booktitle = {EuroITV '12 Proceedings of the 10th European Conference on Interactive TV and Video}, publisher = {ACM}, address = {New York}, isbn = {978-1-4503-1107-6}, doi = {10.1145/2325616.2325639}, pages = {105 -- 114}, year = {2012}, abstract = {In this paper we introduce a system for tracking persons walking or standing on a large planar surface and for using the acquired data to easily configure position based interactions for virtual studio productions. The tracking component of the system, radarTRACK, is based on a laser scanner device capable of delivering interaction points on a large configurable plane. By using the device on the floor it is possible to use the delivered data to detect feet positions and derive the position and orientation of one or more users in real time. The second component of the system, named OscCalibrator, allows for the easy creation of multidimensional linear mappings between input and output parameters and the routing of OSC messages within a single modular design environment. We demonstrate the use of our system to flexibly create position-based interactions in a virtual studio environment.}, language = {en} } @inproceedings{SimschHerder2014, author = {Simsch, Jonathan and Herder, Jens}, title = {SpiderFeedback - Visual Feedback for Orientation in Virtual TV Studios}, series = {ACE'14, 11th Advances in Computer Entertainment Technology Conference, ACM, Funchal, Portugal}, booktitle = {ACE'14, 11th Advances in Computer Entertainment Technology Conference, ACM, Funchal, Portugal}, editor = {Chisik, Yoram}, publisher = {ACM}, address = {New York}, isbn = {978-1-4503-2945-3}, doi = {10.1145/2663806.2663830}, pages = {8}, year = {2014}, abstract = {A visual and spatial feedback system for orientation in virtual sets of virtual TV studios was developed and evaluated. It is based on a green proxy object, which moves around in the acting space by way of four transparent wires. A separate unit controls four winches and is connected to an engine, which renders the virtual set. A new developed plugin registers a virtual object's position with the proxy object which imitates the virtual object's movement on stage. This will allow actors to establish important eye contact with a virtual object and feel more comfortable in a virtual set. Furthermore, interaction with the virtual object and its proxy can be realised through a markerless actor tracking system. Several possible scenarios for user application were recorded and presented to experts in the broadcast industry, who evaluated the potential of SpiderFeedback in interviews and by questionnaires.}, language = {en} } @inproceedings{LudwigBuechelHerderetal.2012, author = {Ludwig, Philipp and B{\"u}chel, Joachim and Herder, Jens and Vonolfen, Wolfgang}, title = {InEarGuide - A Navigation and Interaction Feedback System using In Ear Headphones for Virtual TV Studio Productions}, series = {9. Workshop Virtuelle und Erweiterte Realit{\"a}t der GI-Fachgruppe VR/AR}, booktitle = {9. Workshop Virtuelle und Erweiterte Realit{\"a}t der GI-Fachgruppe VR/AR}, address = {D{\"u}sseldorf}, year = {2012}, abstract = {This paper presents an approach to integrate non-visual user feedback in today's virtual tv studio productions. Since recent studies showed that systems providing vibro-tactile feedback are not sufficient for replacing the common visual feedback, we developed an audio-based solution using an in ear headphone system, enabling a talent to move, avoid and point to virtual objects in a blue or green box. The system consists of an optical head tracking system, a wireless in ear monitor system and a workstation, which performs all application and audio processing. Using head related transfer functions, the talent gets directional and distance cues. Past research showed, that generating reflections of the sounds and simulating the acoustics of the virtual room helps the listener to conceive the acoustical feedback, we included this technique as well. In a user study with 15 participants the performance of the system was evaluated.}, language = {en} } @inproceedings{WoeldeckeMarinosPogschebaetal.2011, author = {W{\"o}ldecke, Bj{\"o}rn and Marinos, Dionysios and Pogscheba, Patrick and Geiger, Christian and Herder, Jens and Schwirten, Tobias}, title = {radarTHEREMIN - Creating Musical Expressions in a Virtual Studio Environment}, series = {2011 IEEE International Symposium on VR Innovation}, booktitle = {2011 IEEE International Symposium on VR Innovation}, publisher = {IEEE}, address = {Singapore}, isbn = {978-1-4577-0055-2}, doi = {10.1109/ISVRI.2011.5759671}, pages = {345 -- 346}, year = {2011}, abstract = {In this paper we describe a prototypical system for live musical performance in a virtual studio environment. The performer stands in front of the studio camera and interacts with an infrared-laser-based multi-touch device. The final TV image shows the performer interacting with a virtual screen which is augmented in front of herself. To overcome the problem of the performer not seeing this virtual screen in reality, we use a special hexagonal grid to facilitate the performer's awareness of this novel Theremin-like virtual musical instrument.}, language = {en} } @inproceedings{DaemenHerderKochetal.2016, author = {Daemen, Jeff and Herder, Jens and Koch, Cornelius and Ladwig, Philipp and Wiche, Roman and Wilgen, Kai}, title = {Semi-Automatic Camera and Switcher Control for Live Broadcast}, series = {TVX '16 Proceedings of the ACM International Conference on Interactive Experiences for TV and Online Video, Chicago, Illinois, USA — June 22 - 24, 2016}, booktitle = {TVX '16 Proceedings of the ACM International Conference on Interactive Experiences for TV and Online Video, Chicago, Illinois, USA — June 22 - 24, 2016}, publisher = {ACM}, address = {New York}, isbn = {978-1-4503-4067-0}, doi = {10.1145/2932206.2933559}, pages = {129 -- 134}, year = {2016}, abstract = {Live video broadcasting requires a multitude of professional expertise to enable multi-camera productions. Robotic systems allow the automation of common and repeated tracking shots. However, predefined camera shots do not allow quick adjustments when required due to unpredictable events. We introduce a modular automated robotic camera control and video switch system, based on fundamental cinematographic rules. The actors' positions are provided by a markerless tracking system. In addition, sound levels of actors' lavalier microphones are used to analyse the current scene. An expert system determines appropriate camera angles and decides when to switch from one camera to another. A test production was conducted to observe the developed prototype in a live broadcast scenario and served as a video-demonstration for an evaluation.}, language = {en} } @misc{JaroschHerderLangmann2022, author = {Jarosch, Monika and Herder, Jens and Langmann, Mathias}, title = {Entwicklung einer AR-Applikation zur kosteneffektiven volumetrischen Erfassung von Baugruben}, series = {gis.Science}, volume = {2022}, journal = {gis.Science}, number = {2}, issn = {2698-4571}, pages = {75 -- 83}, year = {2022}, abstract = {Die volumetrische Erfassung von Aush{\"u}ben auf Baustellen ist ein kostenrelevanter Faktor und wird auch heute im t{\"a}glichen Baustellenbetrieb oft noch in manueller Detailarbeit durchgef{\"u}hrt. Kosteng{\"u}nstige Sensoren zur Tiefenerfassung erm{\"o}glichen die halbautomatische Erfassung von Baugruben. Augmented Reality (AR) kann f{\"u}r diesen Prozess das n{\"o}tige Feedback liefern. Vorgestellt wird ein Prototyp, bestehend aus einem Tablet mit integrierter Kamera und einem Lidar-Scanner. Es wird die Erfassung des Volumens bez{\"u}glich Nutzbarkeit und Genauigkeit mit Einsatz von AR getestet und evaluiert. Zur Bestimmung des Volumens wird unter Verwendung von Strahlen mit Unterst{\"u}tzung einer Grafik-Engine ein Algorithmus entwickelt. Der Algorithmus ist robust gegen nicht vollst{\"a}ndig geschlossene Volumen. Die Bedienung, {\"U}berpr{\"u}fung und Visualisierung findet durch praktischen Einsatz von AR statt.}, language = {de} } @article{DaemenHerderKochetal.2017, author = {Daemen, Jeff and Herder, Jens and Koch, Cornelius and Ladwig, Philipp and Wiche, Roman and Wilgen, Kai}, title = {Halbautomatische Steuerung von Kamera und Bildmischer bei Live-{\"U}bertragungen}, series = {Fachzeitschrift f{\"u}r Fernsehen, Film und Elektronische Medien}, journal = {Fachzeitschrift f{\"u}r Fernsehen, Film und Elektronische Medien}, number = {11}, publisher = {Schiele \& Sch{\"o}n}, pages = {501 -- 505}, year = {2017}, abstract = {Live-Video-Broadcasting mit mehreren Kameras erfordert eine Vielzahl von Fachkenntnissen. Robotersysteme erm{\"o}glichen zwar die Automatisierung von g{\"a}ngigen und wiederholten Tracking-Aufnahmen, diese erlauben jedoch keine kurzfristigen Anpassungen aufgrund von unvorhersehbaren Ereignissen. In diesem Beitrag wird ein modulares, automatisiertes Kamerasteuerungs- und Bildschnitt-System eingef{\"u}hrt, das auf grundlegenden kinematografischen Regeln basiert. Die Positionen der Akteure werden durch ein markerloses Tracking-System bereitgestellt. Dar{\"u}ber hinaus werden Tonpegel der Lavaliermikrofone der Akteure zur Analyse der aktuellen Szene verwendet. Ein Expertensystem ermittelt geeignete Kamerawinkel und entscheidet, wann von einer Kamera auf eine andere umgeschaltet werden soll. Eine Testproduktion wurde durchgef{\"u}hrt, um den entwickelten Prototyp in einem Live-Broadcast-Szenario zu beobachten und diente als Videodemonstration f{\"u}r eine Evaluierung.}, language = {de} } @inproceedings{PaulHerder2018, author = {Paul, Felix and Herder, Jens}, title = {A model-based filtering approach for real-time human motion data}, series = {Workshop Proceedings / Tagungsband: Virtuelle und Erweiterte Realit{\"a}t - 15. Workshop der GI-Fachgruppe VR/AR}, booktitle = {Workshop Proceedings / Tagungsband: Virtuelle und Erweiterte Realit{\"a}t - 15. Workshop der GI-Fachgruppe VR/AR}, editor = {Herder, Jens and Geiger, Christian and D{\"o}rner, Ralf and Grimm, Paul}, publisher = {Shaker Verlag}, address = {Herzogenrath}, isbn = {978-3-8440-6215-1}, doi = {10.2370/9783844062151}, pages = {37 -- 44}, year = {2018}, abstract = {Acquiring human motion data from video images plays an important role in the field of computer vision. Ground truth tracking systems require markers to create high quality motion data. But in many applications it is desired to work without markers. In recent years affordable hardware for markerless tracking systems was made available at a consumer level. Efficient depth camera systems based on Time-of-Flight sensors and structured light systems have made it possible to record motion data in real time. However, the gap between the quality of marker-based and markerless systems is high. The error sources of a markerless motion tracking pipeline are discussed and a model-based filter is proposed, which adapts depending on spatial location. The proposed method is then proven to be more robust and accurate than the unfiltered data stream and can be used to visually enhance the presence of an actor within a virtual environment in live broadcast productions.}, language = {en} } @incollection{DavinHerder2021, author = {Davin, Till and Herder, Jens}, title = {Real-Time Relighting of Video Streams for Augmented Virtuality Scenes}, series = {GI VR / AR Workshop. Gesellschaft f{\"u}r Informatik e.V.}, booktitle = {GI VR / AR Workshop. Gesellschaft f{\"u}r Informatik e.V.}, editor = {Weier, Martin and Bues, Matthias and Wechner, Reto}, publisher = {Gesellschaft f{\"u}r Informatik e.V. (GI)}, address = {Bonn}, doi = {10.18420/vrar2021_6}, publisher = {Hochschule D{\"u}sseldorf}, pages = {16}, year = {2021}, language = {en} } @inproceedings{BallesterRipollHerderLadwigetal.2016, author = {Ballester Ripoll, Marina and Herder, Jens and Ladwig, Philipp and Vermeegen, Kai}, title = {Comparison of two Gesture Recognition Sensors for Virtual TV Studios}, series = {GI-VRAR, Workshop Proceedings / Tagungsband: Virtuelle und Erweiterte Realit{\"a}t - 13. Workshop der GI-Fachgruppe VR/AR,}, booktitle = {GI-VRAR, Workshop Proceedings / Tagungsband: Virtuelle und Erweiterte Realit{\"a}t - 13. Workshop der GI-Fachgruppe VR/AR,}, editor = {Pfeiffer, Thies and Fr{\"o}hlich, Julia and Kruse, Rolf}, publisher = {Shaker Verlag}, address = {Herzogenrath}, isbn = {978-3-8440-4718-9}, year = {2016}, abstract = {In order to improve the interactivity between users and computers, recent technologies focus on incorporating gesture recognition into interactive systems. The aim of this article is to evaluate the effectiveness of using a Myo control armband and the Kinect 2 for recognition of gestures in order to interact with virtual objects in a weather report scenario. The Myo armband has an inertial measurement unit and is able to read electrical activity produced by skeletal muscles, which can be recognized as gestures, which are trained by machine learning. A Kinect sensor was used to build up a dataset which contains motion recordings of 8 different gestures and was also build up by a gesture training machine learning algorithm. Both input methods, the Kinect 2 and the Myo armband, were evaluated with the same interaction patterns in a user study, which allows a direct comparison and reveals benefits and limits of each technique.}, language = {en} } @inproceedings{HerderLadwigVermeegenetal.2018, author = {Herder, Jens and Ladwig, Philipp and Vermeegen, Kai and Hergert, Dennis and Busch, Florian and Klever, Kevin and Holthausen, Sebastian and Ryskeldiev, Bektur}, title = {Mixed Reality Experience - How to Use a Virtual (TV) Studio for Demonstration of Virtual Reality Applications}, series = {GRAPP 2018 - 13th International Conference on Computer Graphics Theory and Applications}, booktitle = {GRAPP 2018 - 13th International Conference on Computer Graphics Theory and Applications}, publisher = {INSTICC}, address = {Setubal - Portugal}, isbn = {978-989-758-287-5}, doi = {10.5220/0006637502810287}, url = {http://nbn-resolving.de/urn:nbn:de:hbz:due62-opus-15823}, pages = {281 -- 287}, year = {2018}, abstract = {The article discusses the question of "How to convey the experience in a virtual environment to third parties?" and explains the different technical implementations which can be used for live streaming and recording of a mixed reality experience. The real-world applications of our approach include education, entertainment, e- sports, tutorials, and cinematic trailers, which can benefit from our research by finding a suitable solution for their needs. We explain and outline our Mixed Reality systems as well as discuss the experience of recorded demonstrations of different VR applications, including the need for calibrated camera lens parameters based on realtime encoder values.}, language = {en} } @inproceedings{GeigerHerderGoebeletal.2010, author = {Geiger, Christian and Herder, Jens and G{\"o}bel, Sebastian and Heinze, Christin and Marinos, Dionysios}, title = {Design and Virtual Studio Presentation of a Traditional Archery Simulator}, series = {Proceedings of the Entertainment Interfaces Track 2010 at Interaktive Kulturen, Duisburg, Germany, September 12-15, 2010}, booktitle = {Proceedings of the Entertainment Interfaces Track 2010 at Interaktive Kulturen, Duisburg, Germany, September 12-15, 2010}, address = {Duisburg}, pages = {37 -- 44}, year = {2010}, abstract = {In this paper we describe the design of a virtual reality simulator for traditional intuitive archery. Traditional archers aim without a target figure. Good shooting results require an excellent body-eye coordination that allows the user to perform identical movements when drawing the bow. Our simulator provides a virtual archery experience and supports the user to learn and practice the motion sequence of traditional archery in a virtual environment. We use an infrared tracking system to capture the user's movements in order to correct his movement. To provide a realistic haptic feedback a real bow is used as interaction device. Our system provides a believable user experience and supports the user to learn how to shoot in the traditional way. Following a user-centered iterative design approach we developed a number of prototypes and evaluated them for refinement in sequent iteration cycles. For illustration purposes we created a short video clip in our virtual studio about this project that presents the main ideas in an informative yet entertaining way.}, language = {en} } @incollection{HerderKronenwettLambertzetal.2006, author = {Herder, Jens and Kronenwett, Ralf and Lambertz, Simone and Kiefer, Georg and Freihoff, Johann}, title = {Interaktive Echtzeit-3D-Visualisierung Webbasierte Darstellung: Mobilisierung und Homing von Blutstammzellen}, series = {Mensch and Computer 2006: Mensch und Computer im Struktur Wandel}, booktitle = {Mensch and Computer 2006: Mensch und Computer im Struktur Wandel}, editor = {Heinecke, A. M. and Paul, H.}, publisher = {Oldenbourg Verlag}, address = {M{\"u}nchen}, pages = {405 -- 409}, year = {2006}, abstract = {Die interaktive Echtzeit 3D-Visualisierung Mobilisierung und Homing von Blutstammzellen wurde konzipiert, um ein sehr komplexes medizinisches Wissen mit den Mitteln der 3-dimensionalen Visualisierung in Echtzeit und des Internets sowie der daraus resultierenden Interaktivit{\"a}t aufzubereiten. Dies musste auf einer Ebene geschehen, die es hinterher auch jedem Nicht-Mediziner erlaubt, die grundlegenden biologischen und medizinischen Sachverhalte nachzuvollziehen. Das Resultat: Eine informative und didaktische Anwendung, aus einer Mischung von interaktiven 3D-Stationen und erkl{\"a}renden 3D-Animationen. Diskutiert werden die Methodik der Konzeptionsphase und die Interaktionstechniken.}, subject = {Visualisierung}, language = {de} }