Ubiquitous computing is a model of computing in which computer functions are integrated into everyday life, often in an invisible way. Modern devices that may serve the ubiquitous computing model include mobile phones, digital audio players, radio-frequen
The age of ubiquitous computing is here: a computing without computers, where information processing has diffused into everyday life, and virtually disappeared from view. How will we learn to make wise decisions about something so hard to see?
Ubiquitous computing is roughly the opposite of virtual reality. Where virtual reality puts people inside a computer-generated world, ubiquitous computing forces the computer to live out here in the world with people. Virtual reality is primarily a horse
Big Games are large-scale, real-world games. A Big Game might involve transforming an entire city into the world's largest board game, or hundreds of players scouring the streets looking for invisible treasure, or a TV show reaching out to interact with r
Context-aware computing refers to a general class of mobile systems that can sense their physical environment, i.e., their context of use, and adapt their behavior accordingly. Such systems are a component of a ubiquitous computing or pervasive computing environment. Three important aspects of context are: (1) where you are; (2) who you are with; and (3) what resources are nearby. Although location is a primary capability, location-aware does not necessarily capture things of interest that are mobile or changing. Context-aware in contrast is used more generally to include nearby people, devices, lighting, noise level, network availability, and even the social situation; e.g., whether you are with your family or a friend from school.
S. Carrino, E. Mugellini, O. Khaled, and R. Ingold. Human-Computer Interaction, volume 6763 of Lecture Notes in Computer Science, page 165--174. Springer, (2011)
A. Passarella, M. Conti, C. Boldrini, and R. Dunbar. The 14th ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems (ACM MSWiM 2011), page 333--340. (2011)
L. Francisco-Revilla, and F. III. IUI '00: Proceedings of the 5th international conference on Intelligent user interfaces, page 94--97. New York, NY, USA, ACM Press, (2000)
D. Kulkarni, and A. Tripathi. SACMAT '08: Proceedings of the 13th ACM symposium on Access control models and technologies, page 113--122. New York, NY, USA, ACM, (2008)
R. Keil-Slawik, T. Hampel, and B. Eßmann. Proceedings 3rd IEEE Int. Conf. on Pervasive Computing and Communications PerCom 2005. Workshop on Pervasive ELearning PerEL'05, page 322-326. Kauai island, Hawaii, (March 2005)
T. Apted, J. Kay, and A. Quigley. CHI '06: Proceedings of the SIGCHI conference on Human Factors in computing systems, page 781--790. New York, NY, USA, ACM, (2006)
R. Beale. SIGDOC '05: Proceedings of the 23rd annual international conference on Design of communication, page 48--53. New York, NY, USA, ACM Press, (2005)
J. Al-Muhtadi, R. Hill, R. Campbell, and M. Mickunas. Proceedings of the Fourth Annual IEEE International Conference on Pervasive Computing and Communications Workshops, page 283-288. IEEE Computer Society, (2006)
A. Cummings, and W. Williams. Journal on Developmental Disabilities, 7 (2):
109-122(December 2000)SI: Special Issue: Recent research on the Assesment of Basic Learning Abilities Test.; MT: Electronic; Print; FO: Print; PO: Human; Male; AG: Childhood (birth-12-yrs); Preschool-Age (2-5-yrs); MD: Empirical-Study; CRN: Number of References: 13; Displayed: 13.; REF: Beukelman, D. R., & Mirenda, P. (1993). Augmentative and Alternative Communication: Management of severe communication disorders in children and adults. Baltimore, MD: Paul H. Brookes. Bondy, A. (1996). What parents can expect from public school programs. In C. Maurice, G. Green, & S. Luce, (Eds.). Behavioral Intervention for young children with autism: A manual for parents and professionals. Austin, Texas: Pro-ed. Bondy, A., & Frost, G. (1994). The Picture-Exchange Communication System. Focus on Autistic Behavior, 9, 1-19. Bondy, A., & Frost, G. (1995). Educational approaches in preschool: Behavioral techniques in public school setting. In E. Schopler & G. Mesibov (Eds.), Learning and cognition in autism (pp. 311-333). New York: Plenum. Kerr, N., Meyerson, L., & Flora, J. (1977). The measurement of motor, visual and auditory discrimination skills. Rehabilitation Psychology, 24, 95-112. Koegel, R. L., & Koegel, L. K. (1995). Teaching children with autism. Baltimore: Paul H. Brookes. Lovaas, O. I. (1966). A program for the establishment of speech in psychotic children. In J.K. Wing, (Ed.) Early Childhood Autism, Elmsford, N.Y., Pergamon Press pp. 115-144. Lovaas, O. I. (1987). Behavioral treatment and normal educational and intellectual functioning in young autistic children. Journal of Counseling and Clinical Psychology, 55, 3-9. Lovaas, O. I., Berberich, J. P., Perloff, B. F., & Schaeffer, B. (1966). Acquisition of imitative speech in Schizophrenic children. Science, 151, 705-707. Maurice, C., Green, G., & Luce, S. C. (1996). Behavioral intervention for young children with autism: A manual for parents and professionals. Austin, Tx: Pro-ed. Quill, K. A. (1995). Teaching children with autism: Strategies to enhance communication and socialization. New York: Delmar. Schreibman, L. (1988). Autism. Newbury Park, CA: Sage. Siegel, B. (1996). The world of the autistic child: Understanding and treating autistic spectrum disorders. New York: Oxford University Press..
A. Gräfe, A. Rashid, and M. Scheermesser. 51. Jahrestagung der Deutschen Gesellschaft für Medizinische Informatik, Biometrie und Epidemiologie (GMDS) 2006, page 137-138. (2006)
Y. Feng, J. Cao, I. Lau, and X. Liu. Embedded and Ubiquitous Computing, 2008. EUC '08. IEEE/IFIP International Conference on, 1, page 438-444. (December 2008)
D. Lee, S. Helal, and Y. Sung. Inclusive Society: Health and Wellbeing in the Community, and Care at Home, volume 7910 of Lecture Notes in Computer Science, Springer Berlin Heidelberg, (2013)
N. Weibel. Proceedings of the 11th EAI International Conference on Pervasive Computing Technologies for Healthcare, page 276--281. New York, NY, USA, ACM, (2017)Workshop Paper.
A. Omicini, and R. Calegari. Massively Multi-Agent Systems II, volume 11422 of Lecture Notes in Computer Science, chapter 2, Springer, International Workshop, MMAS 2018, Stockholm, Sweden, July 14, 2018, Revised Selected Papers.(May 2019)