Merged reality systems: bringing together automation and tracking through immersive geospatial connected environments

Conference paper


Moseley, R. 2014. Merged reality systems: bringing together automation and tracking through immersive geospatial connected environments. 2014 Science and Information Conference (SAI). London, UK 27 - 29 Aug 2014 IEEE. pp. 732-735 https://doi.org/10.1109/sai.2014.6918268
TypeConference paper
TitleMerged reality systems: bringing together automation and tracking through immersive geospatial connected environments
AuthorsMoseley, R.
Abstract

Network speeds, wireless communications and rapid graphic processors now allow the collection and rendering of information in ways previously not possible. Together with this, convergence of many sources of disparate events, including tracking over geospatial domains and interaction with sensors, allow for processing of real time data which can be communicated between both real and virtual worlds. This paper presents a system which allows agents in both of these spheres to be brought together seamlessly for the sharing and manipulation of information streams, leading to actions which are reflected in virtual and real world devices.

KeywordsVirtual worlds; dual reality; sensor networks ; geospatial mapping
Research GroupResearch Group on Development of Intelligent Environments
Conference2014 Science and Information Conference (SAI)
Page range732-735
Proceedings Title2014 Science and Information Conference
ISBN
Hardcover9780989319331
Electronic9780989319317
Electronic9780989319324
PublisherIEEE
Publication dates
Print27 Aug 2014
Online09 Oct 2014
Publication process dates
Deposited18 Feb 2015
Output statusPublished
Copyright Statement

Access to the full text restricted pending copyright check.

Digital Object Identifier (DOI)https://doi.org/10.1109/sai.2014.6918268
Web of Science identifierWOS:000367072600101
Web address (URL) of conference proceedingshttps://ieeexplore.ieee.org/xpl/conhome/6901367/proceeding
LanguageEnglish
Book title2014 Science and Information Conference
Permalink -

https://repository.mdx.ac.uk/item/84yz3

Restricted files

Publisher's version

  • 59
    total views
  • 2
    total downloads
  • 4
    views this month
  • 0
    downloads this month

Export as

Related outputs

Applying motivational techniques for user adherence to adopt a healthy lifestyle in a gamified application
Fatima, S., Augusto, J., Moseley, R., Urbonas, P., Elliott, A. and Payne, N. 2023. Applying motivational techniques for user adherence to adopt a healthy lifestyle in a gamified application. Entertainment Computing. 46. https://doi.org/10.1016/j.entcom.2023.100571
Gamification for healthier lifestyle – user retention
Fatima, S., Augusto, J., Moseley, R. and Urbonas, P. 2022. Gamification for healthier lifestyle – user retention. 3rd Workshop on Smart Data Integration and Processing on Service Based Environments (STRAPS 2021). Dubai, UAE 22 Nov 2021 Springer. pp. 217-227 https://doi.org/10.1007/978-3-031-14135-5_17
Context-aware support for cardiac health monitoring using federated machine learning
Ogbuabor, G., Augusto, J., Moseley, R. and Van Wyk, A. 2021. Context-aware support for cardiac health monitoring using federated machine learning. Bramer, M. and Ellis, R. (ed.) 41st SGAI International Conference on Artificial Intelligence (AI-2021). Cambridge, England [Online] 14 - 16 Dec 2021 Springer. pp. 267-281 https://doi.org/10.1007/978-3-030-91100-3_22
Advanced cybersecurity technologies
Moseley, R. 2021. Advanced cybersecurity technologies. Boca Raton, United States CRC Press.
Context-aware approach for cardiac rehabilitation monitoring
Ogbuabor, G., Augusto, J., Moseley, R. and Van Wyk, A. 2020. Context-aware approach for cardiac rehabilitation monitoring. Iglesias, C., Novella, J., Ricci, A., Pinto, D. and Roman, D. (ed.) 4th International Workshop on Citizen-Centric Smart Cities Services (CCSCS 2020). Madrid, Spain 22 - 23 Jun 2020 IOS Press. pp. 167-176 https://doi.org/10.3233/AISE200039
Context-aware system for cardiac condition monitoring and management: a survey
Ogbuabor, G., Augusto, J., Moseley, R. and Van Wyk, A. 2020. Context-aware system for cardiac condition monitoring and management: a survey. Behaviour and Information Technology. 41 (4), pp. 759-776. https://doi.org/10.1080/0144929X.2020.1836255
The space between worlds: Liminality, multidimensional Virtual Reality and Deep Immersion
Moseley, R. 2019. The space between worlds: Liminality, multidimensional Virtual Reality and Deep Immersion. Arai, K., Bhatia, R. and Kapoor, S. (ed.) Computing Conference 2019. London, United Kingdom 16 - 17 Jun 2019 Springer. pp. 548-562 https://doi.org/10.1007/978-3-030-22871-2_37
Sensorial computing
Varsani, P., Moseley, R., Jones, S., James-Reynolds, C., Chinellato, E. and Augusto, J. 2018. Sensorial computing. in: Filimowicz, M. and Tzankova, V. (ed.) New Directions in Third Wave Human-Computer Interaction: Volume 1 - Technologies Cham, Switzerland Springer. pp. 265-284
Creating an ambient intelligence network using insight and merged reality technologies
Moseley, R. 2017. Creating an ambient intelligence network using insight and merged reality technologies. 2017 Computing Conference. London, UK 18 - 20 Jul 2017 IEEE. pp. 469-474 https://doi.org/10.1109/sai.2017.8252139
Deep immersion with Kasina: an exploration of meditation and concentration within virtual reality environments
Moseley, R. 2017. Deep immersion with Kasina: an exploration of meditation and concentration within virtual reality environments. 2017 Computing Conference. London, UK 18 - 20 Jul 2017 IEEE. pp. 523-529 https://doi.org/10.1109/SAI.2017.8252146
Immersive brain entrainment in virtual worlds: Actualizing meditative states
Moseley, R. 2016. Immersive brain entrainment in virtual worlds: Actualizing meditative states. Chen, L., Kapoor, S. and Bhatia, R. (ed.) 2015 Science and Information Conference (SAI). London, United Kingdom 28 - 30 Jul 2015 Springer. https://doi.org/10.1007/978-3-319-33353-3_17
Inducing targeted brain states utilizing merged reality systems
Moseley, R. 2015. Inducing targeted brain states utilizing merged reality systems. 2015 Science and Information Conference (SAI). London, United Kingdom 28 - 30 Jul 2015 IEEE. pp. 657-663