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Communications networks for the Force XXI Digitized Battlefield

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Abstract

In striving to meet the increasing demands for timely delivery of multimedia information to the warfighter of the 21st Century, the US Army is undergoing a gradual evolution from its “legacy” communications networks to a flexible internetwork architecture based solidly on the underlying communications protocols and technology of the commercial Internet. The framework for this new digitized battlefield, as described in the DoD's Joint Technical Architecture (JTA), is taken from the civilian telecommunications infrastructure which, in many cases, differs appreciably from the rigors of the battlefield environment. The purpose of this paper is to survey the components and characteristics of the Army's legacy communications networks, to illustrate the directions currently being taken for accomplishing this digitization, to describe the areas in which the civilian and military systems differ, and to define a glide path for convergence of the two technologies in support of the military's increasing appetite for information.

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References

  1. Joint Technical Architecture-Army, Version 5.0 (September 11, 1997), http://www.hqda.army.mil/techarch/jta50/cover/htm.

  2. G.R. Sullivan, GEN, US Army Chief of Staff, Force XXI America's Army of the 21st Century Meeting the 21st Century Challenge, A letter available at http://204.7.227.67/force21/f21book/book-toc.html.

  3. MSE Planning Document, GTE (1991).

  4. J. Mostow, M. Harrigan, Powell, Kennedy and Barnett, NPT: The tool for planning MSE networks, in: Proc. of IEEE MILCOM 94, Session 24, Vol. 2.

  5. Echelons Corps and Below Technical Requirements for the ACUS Radio Modernization Program, Appendix A, PM WIN-T, Ft. Monmouth, NJ (December 1, 1997).

  6. J. Bojarski, HCTR System White Paper, Version 4, US Army CECOM Bulletin Board (November 26, 1996).

  7. MSE Commander's Brief, GTE (1991).

  8. B. Goda and R. Prudhomme, Communications on a mobile battlefield in the 100 hours war, Army Communicator (Spring 91).

  9. The Signal Leader's Guide, Army Field Manual FM 11–43, Headquarters, Department of the Army, Washington, DC (June 1995).

  10. Tactical Internet Systems Description for TFXXI, Booz-Allen Hamilton for CECOM (July 7, 1995).

  11. A. Shohara, J. McChesney and M. Pursley, SINCGARS Packet Switch Overlay, Design Plan, SRI, ITT, University of Illinois for CECOM (May 1986).

  12. J. McChesney and M. Pursley, Channel access/multiple access performance for SINCGARS packet switched radio network, in: Proc. of AFCEA/IEEE Conf. Tactical Communications (TCC-86), Fort Wayne, IN (April 1986).

  13. Interoperability Standard for Digital Message Transfer Device Subsystems, MIL-STD–188–220A (July 27, 1995).

  14. P. Sass, Battlefield Information Transmission System (BITS) Far Term Strategy, Version 2.0 (September 1, 1997), http://FOTLAN5. FOTLAN.ARMY.MIL/BITS/bits.html.

  15. The Army Satellite Communications (SATCOM) Architecture, Directorate of Combat Developments, Ft. Gordon, GA (April 1996).

  16. P. Sass, Army spread spectrum-evolution or revolution?, in: Proc. IEEE MILCOM 82, IEEE 82CH1734–3 (October 1982).

  17. EPLRS Technical Description, http://www.gordon.army.mil/dcd/ TFXXI/html2441/html/chap2.htm.

  18. A. Lukosevicius, VHSIC technology insertion into the enhanced EPLRS user unit, in: Government Microcircuit Applications Conf., Orlando, FL (November 7–9, 1989).

  19. P. Sass, Survivable Adaptive Systems (SAS) ATD, Final Technical Report (May 20, 1996).

  20. R. Shively, TFXXI Update, Internal CECOM briefing (April 1997).

  21. P. Sass and A. Tabler, Battlefield information transmission system (BITS) insertion into TFXXI, in: Proc. IEEE MILCOM 96, Washington, DC (October 1996).

  22. R. Ruppe, S. Griswald and R. Martin, Near term digital radio (NTDR) system, in: Proc. IEEE MILCOM 97, Monterey, CA (October 1997).

  23. C. Graff, Internal CECOM Briefing (January 1997).

  24. P. Sass and I. Eldridge, Army Demonstrates Wideband On the Move Communications of Digitized Battlefields, SIGNAL (March 1994).

  25. M. Frankel, 1994 Army Science Board Recommended Technical Architecture for the Digital Battlefield, Army Research, Development, and Acquisition Bulletin (November–December 1994).

  26. J. Strater, A Reliable Transport Protocol for the Tactical Internet.

  27. J. Ucles, TaskForce XXI Data Analysis, Prediction Systems for PM TRCS (June 12, 1997).

  28. Airborne Communications Node (ACN), http://www.les.disa.mil/ acn/.

  29. W. Wollman and Y. Barsoum, Overview of open shortest path first, Version 2 (OSPF v2) routing in the tactical environment, in: Proc. IEEE MILCOM 95, McLean, VA (October 1995).

  30. Operational Assessment for the Applique and Tactical Internet, US Army Operational Test and Evaluation Command, Alexandria, VA (July 3, 1997).

  31. C. Graff, R. Westerman and J. Vassallo, Alternate architectures for brigade communications in the next decade, in: Proc. IEEE MILCOM 96, McLean, VA (October 1996).

  32. R. Bateman and C. Graff, The CECOM RAP providing integrated voice, video, and data service for the warfighter, in: Proc. IEEE MILCOM 96, McLean, VA (October 1996).

  33. R. Doyle, I. Shahmawaz and J. Baker, Tactical communicatons networks using multiband multimode radios, IEEE 5/94 (June 15, 1994).

  34. Info Warfare-Defense, Defense Science Board Task Force Report (November 1996), www.infowar.com.

  35. J. Evanowsky, Information for the warrior, IEEE Communications Magazine (October 1995) 106–112.

  36. ACUS Modernization Plan, PEO C3S (April 10, 1996).

  37. F. Loso, Surrogate digital radio (SDR) network architecture development for Task Force XXI, in: Proc. IEEE MILCOM 97, Monterey, CA (October 1997).

  38. R. Callon and G. Lauer, Hierarchical Routing for Packet Radio Networks, SURAN Technical Note No. 31, BBN Laboratories (June 1985).

  39. J. Staba and A. Vaga, CDMA cellular architecture for army tactical communications, in: Proc. IEEE MILCOM 97, Monterey, CA (October 1997).

  40. M. Schillinger, C. Graff, E. Thomas, R. Bateman, H. Garcia, H. Herscher, D. Macauley, G. McNees and J. Vassallo, Radio access point (RAP) proof of concept demo, in: Proc. IEEE MILCOM 96, McLean, VA (October 1996).

  41. J. Zavgren, NTDR mobility management protocols and procedures, in: Proc. IEEE MILCOM 97, Monterey, CA (October 1997).

  42. IP Routing for Wireless/Mobile Hosts Working Group (Mobile IP), http://www.ietf.cnri.reston.va.us/proceedings/94mar/rtg/mobileip/ html.

  43. Mobile Ad-hoc Networks (MANET) Charter, http://www.ietf.org/ html.charters/manet-charter.html.

  44. Z.J. Haas, Supporting Ad-hoc Connectivity with Reconfigurable Wireless Networks-Design Issues, Cornell University (June 97).

  45. WIN Master Plan, Version 3, Directorate of Combat Developments, Ft. Gordon, GA (June 1997).

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  1. MITRE Corporation, Bedford, MA, 01730, USA

    Paul Sass (Principal Engineer)

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  1. Paul Sass
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Sass, P. Communications networks for the Force XXI Digitized Battlefield. Mobile Networks and Applications 4, 139–155 (1999). https://doi.org/10.1023/A:1019194714609

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