Using cursor prediction to smooth telepointer jitter

Gutwin, Carl; Dyck, Jeff; Burkitt, Jennifer A.

doi:10.1145/958160.958207

Cited by 29 publications

(9 citation statements)

References 19 publications

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“…For short strokes of around 1~2cm, it was about 10cm/sec on average. However, for long strokes of around 10~15cm, it A basic dead-reckoning technique was used in order to overcome the system delay problem [6]. Because rubbing is a regular and periodic movement, it is possible to predict the location of TransPen for a short amount of time.…”

Section: Compensating the System Delay Of Transpen And Mimeopadmentioning

confidence: 99%

Digital rubbing

Kim

Lee

et al. 2008

CHI '08 Extended Abstracts on Human Factors in Computing Systems

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In this paper, we introduce digital rubbing, which is a playful and intuitive interaction technique for transferring a graphic image directly onto paper. We designed TransPen and MimeoPad to realize digital rubbing. With these drawing tools, children and adults can use rubbing motions to transfer a digital image directly to paper and produce a drawing with a personal touch and natural texture, just as in traditional rubbing. We expect that digital rubbing technique would be useful in arts and design as a new way of expression in the process of drawing and editing ideas. In addition, the suggested interaction devices have the full potential to become new drawing toys for children.

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Section: Compensating the System Delay Of Transpen And Mimeopadmentioning

confidence: 99%

Digital rubbing

Kim

Lee

et al. 2008

CHI '08 Extended Abstracts on Human Factors in Computing Systems

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“…AMaze [1], DIVE [8], and NPSnet [15] in- troduced dead reckoning to improve real-time interactivity or to reduce the amount of data transmission. Effects on dead reckoning on temporal jitter of telepointers in realtime distributed groupware have been investigated in reference [7]. In reference [2][3], a dead reckoning method has been applied to streaming virtual human animation on networked virtual environments.…”

Section: Related Workmentioning

confidence: 99%

“…Our way of analysis is to introduce a mathematical model of this degradation with regard to the metrics of the temporal interval. A number of studies on the effects of using a dead reckoning method in real-time systems have previously been reported [1] [2][3] [7][8] [12] [15] [17] [19] [20]. However, theoretical evaluation of the dead reckoning method has not been sufficiently done.…”

Section: Introductionmentioning

confidence: 99%

On the error modeling of dead reckoned data in a distributed virtual environment

Dai

Yonekura

2005

2005 International Conference on Cyberworlds (CW'05)

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In this paper, the authors aim to analyze the error of dead reckoned data generated from received data in a discrete temporal axis in a distributed virtual environment (DVE). That is, compared with the data received in continuous time, data acquired in discrete time has a certain degradation or uncertainty of information. Our way of analysis is to introduce a mathematical model of this degradation with regard to the metrics of the temporal interval. We introduced polynomial models for dead reckoning method between frames using parametrics calculated from the data over the last several frames. By employing the method of error analysis of a numerical analysis to the above polynomial models, we formulate theoretical models which approximate the statistical error of dead reckoned data based on parameters such as the update interval and changes in the data. This study enables the discussion on the optimality of the update interval in a DVE using dead reckoning. Finally, we evaluate the adaptability of the theoretical model by conducting simulation experiments generated by pen motion of writing string of letters by human. As a result, we confirm that the proposed theoretical model closely approximates the average error in the simulation.

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“…We present a new collaborative framework that can take advantage of this opportunity and meet performance criteria better than existing systems without requiring hardware, network, or user-interface changes. Several performance metrics have been identified, such as local [14] and remote [4] response time, throughput [5], bandwidth [7], jitter [6], task completion time [2], and frame rate [16]. While all of them are important, our focus is on response times.…”

Section: Introductionmentioning

confidence: 99%

Towards self-optimizing collaborative systems

Junuzovic

Dewan

2012

Proceedings of the ACM 2012 Conference on Computer Supported Cooperative Work

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Two important performance metrics in collaborative systems are local and remote response times. Previous analytical and simulation work has shown that these response times depend on three important factors: processing architecture, communication architecture, and scheduling of tasks dictated by these two architectures. We show that it is possible to create a system that improves response times by dynamically adjusting these three system parameters in response to changes to collaboration parameters such as new users joining and network delays changing. We present practical approaches for collecting collaboration parameters, computing multicast overlays, applying analytical models of previous work, preserving coupling semantics during optimizations, and keeping overheads low. Simulations and experiments show that the system improves performance in practical scenarios.

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Using cursor prediction to smooth telepointer jitter

Cited by 29 publications

References 19 publications

Digital rubbing

Digital rubbing

On the error modeling of dead reckoned data in a distributed virtual environment

Towards self-optimizing collaborative systems

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