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1. VRHapticDrones: Providing Haptics in Virtual Reality through Quadcopters

   Matthias Hoppe, Pascal Knierim (November 2018, MUM 2018 Proceedings of the 17th International Conference on Mobile and Ubiquitous Multimedia)

   We present VRHapticDrones, a system utilizing quadcopters as levitating haptic feedback proxy. A touchable surface is attached to the side of the quadcopters to provide unintrusive, flexible, and programmable haptic feedback in virtual reality. Since the users' sense of presence in virtual reality is a crucial factor for the overall user experience, our system simulates haptic feedback of virtual objects. Quadcopters are dynamically positioned to provide haptic feedback relative to the physical interaction space of the user. In a first user study, we demonstrate that haptic feedback provided by VRHapticDrones significantly increases users' sense of presence compared to vibrotactile controllers and interactions without additional haptic feedback. In a second user study, we explored the quality of induced feedback regarding the expected feeling of different objects. Results show that VRHapticDrones is best suited to simulate objects that are expected to feel either light-weight or have yielding surfaces. With VRHapticDrones we contribute a solution to provide unintrusive and flexible feedback as well as insights for future VR haptic feedback systems. 

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2. Chemical Haptics: Rendering Haptic Sensations via Topical Stimulants

   https://doi.org/10.1145/3472749.3474747  

   Lu, Jasmine; Liu, Ziwei; Brooks, Jas; Lopes, Pedro (January 2021, ACM Symposium on User Interface Software and Technology)

   We propose a new class of haptic devices that provide haptic sensations by delivering liquid-stimulants to the user's skin; we call this chemical haptics. Upon absorbing these stimulants, which contain safe and small doses of key active ingredients, receptors in the user's skin are chemically triggered, rendering distinct haptic sensations. We identified five chemicals that can render lasting haptic sensations: tingling (sanshool), numbing (lidocaine), stinging (cinnamaldehyde), warming (capsaicin), and cooling (menthol). To enable the application of our novel approach in a variety of settings (such as VR), we engineered a self-contained wearable that can be worn anywhere on the user's skin (e.g., face, arms, legs). Implemented as a soft silicone patch, our device uses micropumps to push the liquid stimulants through channels that are open to the user's skin, enabling topical stimulants to be absorbed by the skin as they pass through. Our approach presents two unique benefits. First, it enables sensations, such as numbing, not possible with existing haptic devices. Second, our approach offers a new pathway, via the skin's chemical receptors, for achieving multiple haptic sensations using a single actuator, which would otherwise require combining multiple actuators (e.g., Peltier, vibration motors, electro-tactile stimulation). We evaluated our approach by means of two studies. In our first study, we characterized the temporal profiles of sensations elicited by each chemical. Using these insights, we designed five interactive VR experiences utilizing chemical haptics, and in our second user study, participants rated these VR experiences with chemical haptics as more immersive than without. Finally, as the first work exploring the use of chemical haptics on the skin, we offer recommendations to designers for how they may employ our approach for their interactive experiences. 

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3. Revisiting Blind Photography in the Context of Teachable Object Recognizers

   https://doi.org/10.1145/3308561.3353799  

   Lee, Kyungjun; Hong, Jonggi; Pimento, Simone; Jarjue, Ebrima; Kacorri, Hernisa (October 2019, The 21st International ACM SIGACCESS Conference on Computers and Accessibility)

   For people with visual impairments, photography is essential in identifying objects through remote sighted help and image recognition apps. This is especially the case for teachable object recognizers, where recognition models are trained on user's photos. Here, we propose real-time feedback for communicating the location of an object of interest in the camera frame. Our audio-haptic feedback is powered by a deep learning model that estimates the object center location based on its proximity to the user's hand. To evaluate our approach, we conducted a user study in the lab, where participants with visual impairments (N=9) used our feedback to train and test their object recognizer in vanilla and cluttered environments. We found that very few photos did not include the object (2% in the vanilla and 8% in the cluttered) and the recognition performance was promising even for participants with no prior camera experience. Participants tended to trust the feedback even though they know it can be wrong. Our cluster analysis indicates that better feedback is associated with photos that include the entire object. Our results provide insights into factors that can degrade feedback and recognition performance in teachable interfaces. 

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4. CrazyJoystick: A Handheld Flyable Joystick for Providing On-Demand Haptic Feedback in Extended Reality

   Chen, Yang; Yu, Xinlei; Culbertson, Heather (July 2025, IEEE World Haptics Conference)

   We present CrazyJoystick, a flyable handheld joystick allowing seamless interaction methods to change between joystick and hand-tracking while displaying on-demand haptic feedback in extended reality (XR). Our system comprises a quadrotor that can autonomously approach the user when needed, addressing the limitations of conventional handheld and wearable devices that require continuous carrying throughout interactions. CrazyJoystick dynamically reallocates all thrust for haptic rendering during stationary states, eliminating the need to hover while delivering feedback. A customized cage allows users to grasp the device and interact with virtual objects, receiving 3.5 degree-of-freedom feedback. This novel transition method allows us to harvest the aerial mobility from multi-rotor based haptic devices, while having high force-to-weight ratios from being handheld during interaction. This paper describes the design and implementation of CrazyJoystick, evaluates its force and torque performance, and usability of the system in three VR applications. Our evaluation of torque rendering found that users can perceive the direction with an accuracy of 92.2%. User studies further indicated that the system significantly improves presence in VR environments. Participants found on-demand haptic feedback intuitive and enjoyable, emphasizing the potential of CrazyJoystick to redefine immersive interactions in XR through portable and adaptive feedback mechanisms. 

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5. Effects of Physical Prop Shape on Virtual Stairs Travel Techniques

   https://doi.org/10.1109/VRW50115.2020.00187  

   Kasarda, Connor; Swartz, Maria; Mitchell, Kyle; Khadka, Rajiv; Banic, Amy (March 2020, In 2020 IEEE Conference on Virtual Reality and 3D User Interfaces)

   Experiences of Virtual Reality training and architectural virtual environments benefit when provided a higher sensation of stair climbing. Passive haptic props can add that sensation. These methods present a safe approach by placing short ramps on the floor rather than a physical staircase. To improve a user’s level of immersion, we conducted an experiment to explore the shape of physical props to change the way users were aligned and moved while traveling up or down a virtual set of stairs. We investigated three methods for physical props while ascending and descending virtual stairs. Results suggest that elongated props provide a better experience and are more preferred. 

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