Optimization of connection-oriented, mobile, hybrid network systems

We consider the extension of a cellular system by means of satellite channels. Specifically, we consider an area covered by a number of cells, that is also covered by a number of spot beams. We consider connection-oriented service, and call durations are assumed to be exponentially distributed. Also, users are mobile and, as such, they may cross cell and/or spot-beam boundaries, thus necessitating handoffs. We incorporate the possibility of call dropping due to unsuccessful handoff attempts, in addition to satellite propagation delays along with the probability of new call blocking, and formulate a specific multifaceted cost function that must be ultimately minimized. The minimization is to be carried out by choosing: (1) the optimal partitioning of channels between the cellular and the satellite systems, and (ii) the call admission and assignment policy, subject to the constraints of a demand vector that consists of an exogenous (new-call) generation process and an internal (handoff-based) process that results from the mobility model. Two subproblems of this complex optimization problem are solved by means of numerical techniques and by means of so-called standard clock simulation techniques. In this solution method, we employ the ordinal optimization approach which focuses on preserving the performance rank, rather than the performance prediction of the different control policies. We find that the "double" coverage, through both cellular and satellite resources, results in substantial improvement over pure terrestrial or pure satellite systems for parameter values that correspond to practical environments.

[1]  Anthony Ephremides,et al.  A satellite‐augmented cellular network concept , 1998, Wirel. Networks.

[2]  Keith W. Ross,et al.  Multiservice Loss Models for Broadband Telecommunication Networks , 1997 .

[3]  Roberto Beraldi,et al.  Performance of a Reversible Hierarchical Cellular System , 1997, Int. J. Wirel. Inf. Networks.

[4]  K. L. Yeung,et al.  Channel management in microcell/macrocell cellular radio systems , 1996 .

[5]  Anthony Ephremides,et al.  Blocking analysis and simulation studies in satellite-augmented cellular networks , 1996, Proceedings of PIMRC '96 - 7th International Symposium on Personal, Indoor, and Mobile Communications.

[6]  Anthony Ephremides,et al.  A satellite-augmented cellular network concept , 1996 .

[7]  Stefan Ramseier,et al.  Admission control schemes for spot-beam satellite networks , 1994 .

[8]  Anthony Ephremides,et al.  Ordinal Optimization of Admission Control in Wireless Multihop Integrated Networks via Standard Cloc , 1995 .

[9]  Stephen S. Rappaport,et al.  Personal Communication Systems Using Multiple Hierarchical Cellular Overlays , 1995, IEEE J. Sel. Areas Commun..

[10]  Anthony Ephremides,et al.  Ordinal optimization of admission control in wireless multihop voice/data networks via standard clock simulation , 1994, Proceedings of INFOCOM '94 Conference on Computer Communications.

[11]  J.-F. Chang,et al.  Performance analysis of a hierarchical cellular mobile communication system , 1993, Proceedings of 2nd IEEE International Conference on Universal Personal Communications.

[12]  Jens Zander Generalized reuse partitioning in cellular mobile radio , 1993, IEEE 43rd Vehicular Technology Conference.

[13]  Polly Estabrook,et al.  Integration of mobile satellite and cellular systems , 1993 .

[14]  Marina Ruggieri,et al.  Handover procedures in integrated satellite and terrestrial mobile systems , 1993 .

[15]  F. Vatalaro,et al.  A Spectrum- and Power-Efficient EHF Mobile Satellite System to be Integrated with Terrestrial Cellular Systems , 1992, IEEE J. Sel. Areas Commun..

[16]  Yu-Chi Ho,et al.  Ordinal optimization of DEDS , 1992, Discret. Event Dyn. Syst..

[17]  Jens Zander,et al.  Capacity allocation and channel assignment in cellular radio systems using reuse partitioning , 1992 .

[18]  L.J. Greenstein,et al.  A microcell/macrocell cellular architecture for low- and high-mobility wireless users , 1991, IEEE Global Telecommunications Conference GLOBECOM '91: Countdown to the New Millennium. Conference Record.

[19]  Pirooz Vakili,et al.  Using a standard clock technique for efficient simulation , 1991, Oper. Res. Lett..

[20]  Pravin Varaiya,et al.  Control of multiple service, multiple resource communication networks , 1991, IEEE INFCOM '91. The conference on Computer Communications. Tenth Annual Joint Comference of the IEEE Computer and Communications Societies Proceedings.

[21]  Dimitri P. Bertsekas,et al.  Data Networks , 1986 .

[22]  Anthony Unwin,et al.  Reversibility and Stochastic Networks , 1980 .