Access the full text.
Sign up today, get DeepDyve free for 14 days.
Mirko Viroli, Matteo Casadei (2009)
Biochemical Tuple Spaces for Self-organising Coordination
S. Reddy, D. Estrin, M. Srivastava (2010)
Recruitment Framework for Participatory Sensing Data Collections
M. Hossain, Atif Alamri, Abdulmotaleb Saddik (2009)
A biologically inspired framework for multimedia service management in a ubiquitous environmentConcurrency and Computation: Practice and Experience, 21
H. Van, Dyke Parunak (1997)
"Go to the ant": Engineering principles from natural multi-agent systemsAnn. Oper. Res., 75
N. Salazar, J. Rodríguez-Aguilar, J. Arcos (2010)
Robust coordination in large convention spacesAI Commun., 23
(2004)
About the authorsArtificial Intelligence Review, 22
P. Eugster, P. Felber, R. Guerraoui, Anne-Marie Kermarrec (2003)
The many faces of publish/subscribeACM Comput. Surv., 35
Emre Çakar, C. Müller-Schloer (2009)
Self-Organising Interaction Patterns of Homogeneous and Heterogeneous Multi-Agent Populations2009 Third IEEE International Conference on Self-Adaptive and Self-Organizing Systems
M. Huhns, Munindar Singh (2005)
Service-Oriented Computing: Key Concepts and PrinciplesIEEE Internet Comput., 9
M. Mamei, F. Zambonelli (2010)
Field-based coordination for pervasive multiagent systems
F. Brazier, J. Kephart, H. Parunak, M. Huhns (2009)
Agents and Service-Oriented Computing for Autonomic Computing: A Research AgendaIEEE Internet Computing, 13
H. Abelson, Don Allen, D. Coore, Chris Hanson, G. Homsy, Thomas Knight, Radhika Nagpal, Erik Rauch, Gerald Sussman, R. Weiss (2000)
Amorphous computingCommunications of the ACM, 43
Perukrishnen Vytelingum, S. Ramchurn, T. Voice, A. Rogers, N. Jennings (2010)
Trading agents for the smart electricity grid
U. Lee, Eugenio Magistretti, M. Gerla, P. Bellavista, P. Lio’, Kang-Won Lee (2009)
Bio-inspired multi-agent data harvesting in a proactive urban monitoring environmentAd Hoc Networks, 7
Stephanos Androutsellis-Theotokis, D. Spinellis (2004)
A survey of peer-to-peer content distribution technologiesACM Comput. Surv., 36
M. Mamei, F. Zambonelli (2009)
Programming pervasive and mobile computing applications: The TOTA approachACM Trans. Softw. Eng. Methodol., 18
A. Barros, M. Dumas (2006)
The Rise of Web Service EcosystemsIT Professional, 8
G. Berry, G. Boudol (1989)
The chemical abstract machineTheor. Comput. Sci., 96
J. Beal, J. Bachrach (2006)
Infrastructure for engineered emergence on sensor/actuator networksIEEE Intelligent Systems, 21
G. Agha (2008)
Computing in pervasive cyberspaceCommun. ACM, 51
Cynthia Villalba, F. Zambonelli
Towards Nature-inspired Pervasive Service Ecosystems: Concepts and Simulation Experiences
G. Olson, G. Mark, E. Churchill, D. Rotman (2010)
New Missions for a Sociotechnical InfrastructureComputer, 43
A. Ferscha, Simon Vogl (2010)
Wearable Displays for Everyone!IEEE Pervasive Computing, 9
M. Hassell, R. May (1973)
Stability and Complexity in Model EcosystemsIEEE Transactions on Systems, Man, and Cybernetics, 8
J. Banâtre, T. Priol (2009)
Chemical Programming of Future Service-oriented ArchitecturesJ. Softw., 4
Özalp Babaoglu, G. Canright, A. Deutsch, G. Caro, F. Ducatelle, L. Gambardella, Niloy Ganguly, Márk Jelasity, R. Montemanni, A. Montresor, Tore Urnes (2006)
Design patterns from biology for distributed computingACM Trans. Auton. Adapt. Syst., 1
Man-Ching Yuen, Ling-Jyh Chen, Irwin King (2009)
A Survey of Human Computation Systems2009 International Conference on Computational Science and Engineering, 4
(2003)
Membrane computing: fundamentals of computation theory
Andreas Sippl, Clemens Holzmann, D. Zachhuber, A. Ferscha (2010)
Real-Time Gaze Tracking for Public Displays
A. Rosi, A. Codeluppi, F. Zambonelli
Adaptive pervasive advertisement: scenarios and strategies
A. Biem, E. Bouillet, Hanhua Feng, A. Ranganathan, A. Riabov, O. Verscheure, H. Koutsopoulos, M. Rahmani, Baris Güç (2010)
Real-Time Traffic Information Management using Stream ComputingIEEE Data Eng. Bull., 33
M. Mamei, R. Menezes, R. Tolksdorf, F. Zambonelli (2006)
Case studies for self-organization in computer scienceJ. Syst. Archit., 52
M. Jazayeri (2005)
Species evolve, individuals age
M. Mamei, F. Zambonelli (2005)
Field-Based Coordination for Pervasive Multiagent Systems (Springer Series on Agent Technology)
F. Zambonelli (2011)
Pervasive urban crowdsourcing: Visions and challenges2011 IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM Workshops)
A. Murphy, G. Picco, G. Roman (2006)
LIME: A coordination model and middleware supporting mobility of hosts and agentsACM Trans. Softw. Eng. Methodol., 15
A. Campbell, S. Eisenman, N. Lane, E. Miluzzo, Ronald Peterson, Hong Lu, Xiao Zheng, Mirco Musolesi, K. Fodor, Gahng-Seop Ahn (2008)
The Rise of People-Centric SensingIEEE Internet Computing, 12
M. Ulieru, Senior Member, Stefan Grobbelaar (2007)
Engineering Industrial Ecosystems in a Networked World2007 5th IEEE International Conference on Industrial Informatics, 1
J. Kephart, D. Chess (2003)
The Vision of Autonomic ComputingComputer, 36
S. Vargo, P. Maglio, M. Akaka (2008)
On value and value co-creation: A service systems and service logic perspectiveEuropean Management Journal, 26
T. Langlotz, Daniel Wagner, Alessandro Mulloni, D. Schmalstieg (2012)
Online Creation of Panoramic Augmented Reality Annotations on Mobile PhonesIEEE Pervasive Computing, 11
N. Lane, E. Miluzzo, Hong Lu, D. Peebles, Tanzeem Choudhury, A. Campbell (2010)
A survey of mobile phone sensingIEEE Communications Magazine, 48
Beth Coleman (2009)
Using Sensor Inputs to Affect Virtual and Real EnvironmentsIEEE Pervasive Computing, 8
Justin Werfel, Y. Bar-Yam, D. Ingber (2008)
Bioinspired Environmental Coordination in Spatial Computing Systems2008 Second IEEE International Conference on Self-Adaptive and Self-Organizing Systems Workshops
J. Spohrer, P. Maglio, John Bailey, D. Gruhl (2007)
Steps toward a science of service systemsComputer, 40
L. Kari, G. Rozenberg (2008)
The many facets of natural computingCommunications of the ACM, 51
J. Müller (1999)
Architectures and applications of intelligent agents: A surveyThe Knowledge Engineering Review, 13
Purpose – Emerging pervasive computing scenarios require open service frameworks promoting situated and self‐adaptive behaviors, and supporting diversity in services and long‐term evolvability. This suggests adopting a nature‐inspired approach, where pervasive services are modeled and deployed as autonomous individuals in an ecosystem of other services, data sources, and pervasive devices. However, there are many possibly nature‐inspired metaphors that can be adopted, and choosing one may require a careful analysis of the pros and cons of the different metaphors. The purpose of this paper is to analyze the key requirements and desiderata for next generation pervasive computing services and associated infrastructures. Design/methodology/approach – In this paper, the authors introduce and critically analyze a number of natural metaphors that can be adopted to realize these concepts and survey relevant proposals in the area. Findings – The key result of this survey is that a uniform reference architecture can be a useful guide when framing the challenges involved in the design and implementation of future self‐adaptive pervasive service ecosystems. Originality/value – The survey in this paper, along with the proposed reference architecture, can be effective starting points towards the definition and implementation of general‐purpose nature‐inspired pervasive service ecosystems.
International Journal of Pervasive Computing and Communications – Emerald Publishing
Published: Sep 6, 2011
Keywords: Metaphors; Pervasive computing; Context‐aware computing; Self‐organization; Nature‐inspired approaches; Middleware; Ecosystems
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.