M. Ajmone Marsan, M. Gribaudo, M. Meo & M. Sereno (2001):
On Petri Net-based modeling paradigms for the performance analysis of wireless Internet accesses.
In: 9th International Workshop on Petri Nets and Performance Models,
pp. 19–28,
doi:10.1109/PNPM.2001.953352.
R. Bakhshi, L. Cloth, W. Fokkink & B.R. Haverkort (2011):
Mean-field framework for performance evaluation of push-pull gossip protocols.
Performance Evaluation 68,
pp. 157–179,
doi:10.1016/j.peva.2010.08.025.
D.A. van Beek, K.L. Man, M.A. Reniers, J.E. Rooda & R.R.H. Schiffelers (2006):
Syntax and consistent equation semantics of hybrid \voidb@x 14.418χ.
Journal of Logic and Algebraic Programming 68,
pp. 129–210,
doi:10.1016/j.jlap.2005.10.005.
M. Bena\"ım & J.-Y. Le Boudec (2008):
A class of mean field interaction models for computer and communication systems.
Performance Evaluation 65,
pp. 823–838,
doi:10.1016/j.peva.2008.03.005.
J.A. Bergstra & C.A. Middelburg (2005):
Process algebra for hybrid systems.
Theoretical Computer Science 335,
pp. 215–280,
doi:10.1016/j.tcs.2004.04.019.
L. Bortolussi, V. Galpin & J. Hillston (2011):
HYPE with stochastic events.
In: QAPL 2011,
EPTCS 57,
pp. 120–133,
doi:10.4204/EPTCS.57.9.
L. Bortolussi & A. Policriti (2009):
Hybrid semantics of stochastic programs with dynamic reconfiguration.
In: COMPMOD 2009,
EPTCS 6,
pp. 63–76,
doi:10.4204/EPTCS.6.5.
J. Burgess, B. Gallagher, D. Jensen & B.N. Levine (2006):
MaxProp: Routing for vehicle-based disruption-tolerant networks.
In: INFOCOM 2006,
pp. 1–11,
doi:10.1109/INFOCOM.2006.228.
P.J.L. Cuijpers & M.A. Reniers (2005):
Hybrid process algebra.
Journal of Logic and Algebraic Programming 62,
pp. 191–245,
doi:10.1016/j.jlap.2004.02.001.
M.H.A. Davis (1993):
Markov Models and Optimization.
Chapman & Hall.
N.A. Deepak, R. Thareja & N.A. Nikhil (2008):
Performance analysis and evaluation of delay-tolerant network bundling protocol on a scalable virtual network test platform.
In: IET International Conference on Wireless, Mobile and Multimedia Networks, 2008,
pp. 52 –55,
doi:10.1049/cp:20080143.
M.B. Elowitz & S. Leibler (2000):
A synthetic oscillatory network of transcriptional regulators.
Nature 403,
pp. 335–338,
doi:10.1038/35002125.
M. Fadlisyah, P.C. Ölveczky & E. Ábrahám (2011):
Object-oriented formal modeling and analysis of interacting hybrid systems in HI-Maude.
In: SEFM 2011,
LNCS 7041,
pp. 415–430,
doi:10.1007/978-3-642-24690-6_29.
R. Gaeta, M. Gribaudo, D. Manini & M. Sereno (2005):
Fluid stochastic Petri nets for computing transfer time distributions in peer-to-peer file sharing applications.
ENTCS 128,
pp. 79–99,
doi:10.1016/j.entcs.2005.01.014.
V. Galpin, L. Bortolussi & J. Hillston:
HYPE: Hybrid modelling by composition of flows,
doi:10.1007/s00165-011-0189-0.
Formal Aspects of Computing, to appear.
V. Galpin, L. Bortolussi & J. Hillston (2009):
HYPE: a process algebra for compositional flows and emergent behaviour.
In: CONCUR 2009,
LNCS 5710,
pp. 305–320,
doi:10.1007/978-3-642-04081-8_21.
V. Galpin, J. Hillston & L. Bortolussi (2008):
HYPE applied to the modelling of hybrid biological systems.
ENTCS 218,
pp. 33–51,
doi:10.1016/j.entcs.2008.10.004.
M. Garetto & M. Gribaudo (2006):
Performance analysis of delay tolerant networks with model checking techniques.
In: QEST 2006,
pp. 73–82,
doi:10.1109/QEST.2006.42.
T.A. Henzinger & P.-H. Ho (1995):
HYTECH: The Cornell HYbrid TECHnology Tool.
In: Hybrid Systems II,
LNCS 999,
pp. 265–293,
doi:10.1007/3-540-60472-3_14.
G. Horton, V.G. Kulkarni, D.M. Nicol & K.S. Trivedi (1998):
Fluid stochastic Petri nets: Theory, applications, and solution techniques.
European Journal of Operational Research 105,
pp. 184 – 201,
doi:10.1016/S0377-2217(97)00028-3.
C.-M. Huang, K.-C. Lan & C.-Z. Tsai (2008):
A survey of opportunistic networks.
In: AINA 2008,
pp. 1672–1677,
doi:10.1109/WAINA.2008.292.
S. Jain, K.R. Fall & R.K. Patra (2004):
Routing in a delay tolerant network.
In: ACM SIGCOMM 2004,
pp. 145–158,
doi:10.1145/1015467.1015484.
S. Jain, R. Shah, W. Brunette, G. Borriello & S. Roy (2006):
Exploiting mobility for energy efficient data collection in wireless sensor networks.
MONET 11,
pp. 327–339,
doi:10.1007/s11036-006-5186-9.
P. Juang, H. Oki, Y. Wang, M. Martonosi, L.-S. Peh & Daniel Rubenstein (2002):
Energy-efficient computing for wildlife tracking: design tradeoffs and early experiences with ZebraNet.
ACM SIGPLAN Notices 37,
pp. 96–107,
doi:10.1145/605397.605408.
A. Keränen, T. Kärkkäinen & J. Ott (2010):
Simulating mobility and DTNs with the ONE.
Journal of Communications 5,
pp. 92–105,
doi:10.4304/jcm.5.2.92-105.
G.Y. Keung, B. Li & Q. Zhang (2011):
Message delivery capacity in delay-constrained mobile sensor networks: Bounds and realization.
IEEE Transactions on Wireless Communications 10,
pp. 1552–1559,
doi:10.1109/TWC.2011.030911.100827.
U. Khadim (2006):
A comparative study of process algebras for hybrid systems.
Report CSR 06-23.
Technische Universiteit Eindhoven.
http://alexandria.tue.nl/extra1/wskrap/publichtml/200623.pdf.
C. Kiddle, R. Simmonds, C. Williamson & B. Unger (2003):
Hybrid packet/fluid flow network simulation.
In: PADS 2003,
pp. 143 – 152,
doi:10.1109/PADS.2003.1207430.
A. Lindgren, A. Doria & O. Schelén (2003):
Probabilistic routing in intermittently connected networks.
Mobile Computing and Communications Review 7,
pp. 19–20,
doi:10.1145/961268.961272.
A. Passarella, M. Kumar, M. Conti & E. Borgia (2011):
Minimum-delay service provisioning in opportunistic networks.
IEEE Transactions on Parallel and Distributed Systems 22,
pp. 1267–1275,
doi:10.1109/TPDS.2010.153.
L. Pelusi, A. Passarella & M. Conti (2006):
Opportunistic networking: data forwarding in disconnected mobile ad hoc networks.
IEEE Communications Magazine 44,
pp. 134–141,
doi:10.1109/MCOM.2006.248176.
A. Picu & T. Spyropoulos (2010):
Distributed stochastic optimization in opportunistic networks: the case of optimal relay selection.
In: CHANTS '10,
pp. 21–28,
doi:10.1145/1859934.1859939.
W.C. Rounds & H. Song (2003):
The Φ-Calculus: A language for distributed control of reconfigurable embedded systems.
In: HSCC 2003,
LNCS 2623,
pp. 435–449,
doi:10.1007/3-540-36580-X_32.
J. Shen, S. Moh & I. Chen (2008):
Routing protocols in delay tolerant networks: A comparative survey.
In: 23rd International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC 2008),
pp. 1577–1580.
T. Small & Z.J. Haas (2003):
The shared wireless infostation model: a new ad hoc networking paradigm (or where there is a whale, there is a way).
In: MobiHoc 2003,
pp. 233–244,
doi:10.1145/778415.778443.
T. Spyropoulos, K. Psounis & C.S. Raghavendra (2006):
Performance analysis of mobility-assisted routing.
In: MobiHoc 2006,
pp. 49–60,
doi:10.1145/1132905.1132912.
B. Tuffin, D.S. Chen & K.S. Trivedi (2001):
Comparison of hybrid systems and fluid stochastic Petri nets.
Discrete Event Dynamic Systems: Theory and Applications 11,
pp. 77–95,
doi:10.1023/A:1008387132533.
A. Vahdat & D. Becker (2000):
Epidemic routing for partially connected ad hoc networks.
Technical Report CS-2000-06.
Duke University.
Available at issg.cs.duke.edu/epidemic/epidemic.pdf.
D. Wilkinson (2011):
Stochastic Modelling for Systems Biology.
Chapman & Hall/CRC.
K. Xu, P. Hui, V.O.K. Li, J. Crowcroft, V. Latora & P. Lio (2009):
Impact of altruism on opportunistic communications.
In: First International Conference on Ubiquitous and Future Networks,
ICUFN'09,
pp. 153–158,
doi:10.1109/ICUFN.2009.5174303.
Z. Zhang (2006):
Routing in intermittently connected mobile ad hoc networks and delay tolerant networks: Overview and challenges.
IEEE Communications Surveys and Tutorials 8,
pp. 24–37,
doi:10.1109/COMST.2006.323440.
W. Zhao, M.H. Ammar & E.W. Zegura (2004):
A message ferrying approach for data delivery in sparse mobile ad hoc networks.
In: MobiHoc 2004,
pp. 187–198,
doi:10.1145/989459.989483.