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Can you use an audio interface with ps5?

Interface (computing)

Haptic technology

Audio signal flow

Orientation and Mobility

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Journal Article•DOI Fundamental and technological limitations of immersive audio systems Chris Kyriakakis 01 May 1998 98 Citations	Last, we present a novel desktop audio system with integrated listener-tracking capability that circumvents several of the technological limitations faced by today's digital audio workstations.
Open access•Proceedings Article•DOI Effects of feedback, mobility and index of difficulty on deictic spatial audio target acquisition in the horizontal plane Georgios Marentakis, Stephen Brewster - Show less +1 more 22 Apr 2006 57 Citations	Deictic interaction with a spatial audio display is found to be a feasible solution for future interface designs.
Proceedings Article•DOI A method for rapid personalization of audio equalization parameters Andrew T. Sabin, Bryan Pardo - Show less +1 more 19 Oct 2009 20 Citations	We describe a system that simplifies the interface by quickly mapping an individual's preferred sound manipulation onto parameters for audio equalization.
Proceedings Article•DOI Audio haptic videogaming for navigation skills in learners who are blind Jaime Sánchez, Matías Espinoza - Show less +1 more 24 Oct 2011 22 Citations	The results show that the interfaces used in the videogame are usable and appropiately designed, and that the haptic interface is as effective as the audio interface for O&M purposes.
Open access•Proceedings Article•DOI Enhancing navigation skills through audio gaming Jaime Sánchez, Mauricio Sáenz, Alvaro Pascual-Leone, Lotfi B. Merabet - Show less +3 more 10 Apr 2010 27 Citations	Our findings indicate that users feel satisfied and self-confident when interacting with the audio-based interface, and the embedded sounds allow them to correctly orient themselves and navigate within the virtual world.
Proceedings Article•DOI User guided audio selection from complex sound mixtures Paris Smaragdis 04 Oct 2009 25 Citations	In this paper we present a novel interface for selecting sounds in audio mixtures.
Open access•Journal Article•DOI It's About Time: Minimizing Hardware and Software Latencies in Speech Research With Real-Time Auditory Feedback Kwang S. Kim, Hantao Wang, Ludo Max, Ludo Max - Show less +3 more 08 Jul 2020-Journal of Speech Language and Hearing Research 26 Citations	Audio interface selection and software parameter optimization substantially affect total feedback loop latency.
Book Chapter•DOI Gesture-Based and Haptic Interfaces for Connected and Autonomous Driving Jmb Jacques Terken, Pierre Levy, Chao Wang, Juffrizal Karjanto, Nidzamuddin Md. Yusof, Felix Ros, SG Sergej Zwaan - Show less +6 more 01 Jan 2017-Advances in intelligent systems and computing 42 Citations	We argue that these interface technologies hold the promise of creating richer and more natural interaction than the traditional vision- and audio-based interfaces that dominate the current market.

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On what body parts was haptic technology used?

Haptic technology has been utilized on various body parts for different applications. Leroy and Shea introduced Haptic Stickers that were tested on palms, back of the hand, neck, arm, and back of volunteers, showing high pattern recognition success on these body locations. Israr discussed the use of cutaneous actuators to create the sensation of motions or actions within body parts like limbs or head by operating them in sequence. Bergamasco, Avizzano, and Ruffaldi highlighted the application of Haptic Interfaces on hands, arms, and feet for training purposes in Virtual Environments and Teleoperation scenarios. Duysak and Dandil developed a simulator software platform to simulate the deformation of organs with soft tissues like gallbladder, kidney, and spleen in the human body using haptic devices. Iyasere focused on haptic interfaces involving hand movements for applications like passive resistance therapy and human-vehicle interfaces.On what body parts to use haptic technology?

Haptic technology can be applied to various body parts for different purposes. It can be used on limbs or head to create the sensation of motions occurring within the body, enhancing the user experience. Additionally, haptic interfaces are designed to interact with different body movements, such as finger, hand, or body movements, providing feedback in the form of felt sensations to the limbs or other body parts. Furthermore, haptic technologies replicate force and tactile stimuli on body parts like hands, arms, or feet during interactions in virtual environments or teleoperation conditions, showcasing their versatility in training and simulation applications. Overall, haptic technology can be utilized on various body parts, offering a wide range of applications from enhancing user experiences to training simulations.Feedback helping with personal development in councelling ?

Feedback plays a crucial role in personal development, especially in counseling settings. It serves as a tool for growth, challenging individuals' thinking, and supporting their professional and personal development. Feedback can help individuals identify their strengths and weaknesses, enabling them to work on areas that need improvement. In counseling, feedback can be provided through various techniques, such as 360° feedback, which allows individuals to see themselves from different perspectives and aids in self-awareness and growth. Seeking feedback actively is essential for personal development, as it fosters a desire for improvement and self-actualization. By utilizing feedback mechanisms, individuals in counseling can receive behavior modification feedback based on their interactions and dynamics, further enhancing their self-awareness and development.How does the use of different textures of toys affect the sensory stimulation and overall well-being of rabbits?

The use of different textures of toys significantly impacts the sensory stimulation and overall well-being of rabbits, as evidenced by various studies. Environmental enrichment through toys of varying textures, such as cardboard and rubber, has been shown to enhance the welfare of rabbits by providing them with opportunities for interaction, such as biting and sniffing, which are crucial for their sensory stimulation. Cardboard and rubber materials, in particular, have been found to be safe and effective for this purpose, with certain toys like fillable teethers filled with hay encouraging more interaction behaviors compared to others. Tactile stimulation, another form of sensory enrichment, has been explored with the handling of rabbits during gestation, showing that it can improve the human-animal relationship without impairing maternal behavior or welfare. However, it also indicated a potential negative impact on the litter, suggesting a complex relationship between tactile stimulation and overall well-being. The housing environment, including the texture and complexity of the space, also plays a role in the health and welfare of rabbits, with different housing systems not showing major differences in welfare outcomes, highlighting the importance of management and environmental factors. The introduction of different feed textures and flavors, such as gel feed with vanilla flavor, has been used to stimulate early feed intake in young rabbits, promoting gut health and indicating the importance of sensory stimulation through taste. Meanwhile, methods like blindfolding and swaddling, aimed at reducing stress during handling by limiting sensory input, have shown no significant impact on stress indicators, suggesting that these methods might not improve welfare through sensory alteration. Exposure to harmful materials like polyethylene in diets has shown negative effects on health and sensory experiences, indicating the importance of ensuring that enrichment materials are safe and non-toxic. The design-based research in educational settings has highlighted the significance of texture and material selection in learning and emotional expression, suggesting parallels in how sensory experiences can affect well-being across species. Studies on rabbit rearing systems have found that stress indicators, such as cortisol and IL-6 levels, vary significantly with the environment, pointing to the impact of external sensory stimuli on stress and well-being. The provision of gnawing blocks in housing systems has been shown to negligibly affect rabbit behavior but positively influence their reactivity to new environments or objects, underscoring the value of physical texture in environmental enrichment. Lastly, the provision of toys to solicit play behavior in pigs has demonstrated a positive change in the human-animal relationship and emotional state, suggesting that similar outcomes could be expected in rabbits with appropriate sensory stimulation through toys. In conclusion, the texture of toys and environmental enrichment plays a crucial role in the sensory stimulation and overall well-being of rabbits, with implications for their health, behavior, and human-animal relationships.How to cite automatically?

To automatically cite references, various methods and systems have been developed. These include utilizing natural language processing (NLP) to identify key concepts in a presentation document and auto-cite related material. Another approach involves analyzing notification letters to acquire citation document information and then searching a database for the corresponding citation document, streamlining the citation acquisition process. Additionally, a method based on deep learning can automatically locate reference areas in documents, extract citation items, and label citations, enhancing accuracy and ease of extension to new fields and styles. Furthermore, for comprehensive computational experiments, an approach has been proposed to automatically generate citations for sub-components of research objects using provenance traces, aiding in identification and retrieval of specific elements within a research object.What is graphical user interface design?

Graphical User Interface (GUI) design is the process of creating visual representations of user interfaces to enhance user experience and interaction with software systems. It involves elements like visual appearance, color, font, and layout to make interfaces aesthetically pleasing, easy to understand, and user-friendly. GUI design plays a crucial role in defining how users interact with digital platforms, affecting usability and accessibility. Different types of interfaces, such as command-based, object-oriented, and expert system interfaces, offer varying levels of user interaction and require different design approaches. GUI design for interactive platforms like web browsers or remotely operated vehicles involves selecting or generating components, associating data values, and enabling dynamic changes to components based on received data. Overall, GUI design aims to optimize user comfort, intuitive navigation, and efficient communication between users and machines.How much torque is applied at the user's elbow affects the user's freedom of movement？?

The torque applied at the user's elbow significantly impacts the user's freedom of movement. Research on exoskeleton controllers highlights the importance of individual customization to optimize user performance and comfort. Additionally, an apparatus designed for bowlers and golfers restricts elbow movement to enhance consistency in performance, indicating the influence of torque on movement freedom. Studies on elderly populations emphasize the need for suitable living spaces to accommodate their mobility, indicating that inappropriate torque levels can restrict movement and hinder daily activities. Furthermore, research on teaching practices in elementary schools suggests that self-directed instructional approaches positively influence teaching tasks, underscoring the impact of freedom of movement on educational performance.How does students used mechanics tike management?

Students utilize mechanics in various ways to enhance their learning experiences. One significant method is through the use of Learning Management Systems (LMS) in teaching mechanics, which has been shown to positively impact students' understanding of concepts. Additionally, computer-based simulations, like the Scenario Design Tool (SDT), aid in creating interactive learning environments for mechanics education, allowing students to manipulate variables, conduct experiments, and enhance their understanding of complex systems. Moreover, innovative pedagogical techniques such as steeplechase activities have been found to improve students' performance in mechanics by making learning more engaging and meaningful, particularly benefiting high-ability groups and reducing gender differences in performance. These diverse approaches highlight the importance of incorporating technology and interactive methods to enhance students' engagement and comprehension in mechanics education.Impact of tactile feedback in health care context?

Tactile feedback plays a crucial role in various healthcare contexts, enhancing sensory perception and improving interaction with prosthetics and medical devices. It aids in tasks like grasping, manipulating objects, and even guiding needle-tissue interactions during percutaneous procedures, contributing to increased safety for both patients and healthcare providers. Studies show that tactile feedback systems can effectively alter neuromuscular control patterns, limiting mechanical risk factors for injuries like low back pain. Additionally, providing proportional tactile force feedback during myoelectric prosthesis control facilitates learning stable internal models of force control, showcasing the importance of tactile feedback in training and improving motor skills in healthcare applications. Overall, integrating tactile feedback technologies in healthcare settings can significantly enhance patient care, rehabilitation, and overall quality of life.What are the key principles of the sensory integration framework?

The sensory integration framework emphasizes the optimal integration of sensory cues for decision-making. It highlights the statistically optimal fashion in which sensory cues are integrated, although various computational frameworks exist for this integration. The framework aims to address implicit assumptions in testing models of sensory cue integration and introduces a method to distinguish between different models based on experimental designs. Additionally, sensory integration interventions focus on enhancing tactile, proprioceptive, and vestibular experiences to address disabilities like ADHD and ASD. These interventions utilize specific equipment, devices, and activities to improve sensory processing and integration, with a strong emphasis on treatment fidelity for accurate evaluation of outcomes.Exoskeleton morphing compromised dexterity?

The integration of morphing capabilities in exoskeleton manipulators and hand devices has shown significant advancements in enhancing dexterity without compromising functionality. For instance, origami-based shape morphing fingertips have been designed to actively address grasping stability and dexterity issues, showcasing improved adaptability to various object properties and manipulation tasks. Additionally, the introduction of redundancy in upper limb exoskeleton manipulators has been explored to enhance manipulation capabilities, with studies showing that increasing degrees of freedom can lead to improved dexterity and manipulability. These advancements in morphing technology have not only improved dexterity but also expanded the versatility of exoskeletons, enabling interactions with a wide range of materials, including fluids, to provide a more immersive and natural user experience.