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Yoneda Kiyoshi (Fukuoka University, Japan)
Elevator Trip Distribution for Inconsistent Passenger Input-Output Data
Decision Making in Manufacturing and Services, 2007, vol. 1, nr 1/2, s. 175-190, rys., tab., bibliogr. 8 poz.
Słowa kluczowe
Przewozy pasażerskie, Lotnictwo cywilne, Badania operacyjne
Passenger traffic, Civil aviation, Operations research
Accurate traffic data are the basis for group control of elevators and its performance evaluation by trace driven simulation. The present practice estimates a time series of inter-floor passenger traffic based on commonly available elevator sensor data. The method demands that the sensor data be transformed into sets of passenger input-output data which are consistent in the sense that the transportation preserves the number of passengers. Since observation involves various behavioral assumptions, which may actually be violated, as well as measurement errors, it has been necessary to apply data adjustment procedures to secure the consistency. This paper proposes an alternative algorithm which reconstructs elevator passenger origin-destination tables from inconsistent passenger input-output data sets, thus eliminating the ad hoc data adjustment.(original abstract)
Pełny tekst
  1. D. Nikovski, M. Brand, Decision-theoretic group elevator scheduling, in International Conference on Automated Planning and Scheduling (ICAPS), Mitsubishi Electric Research Laboratories, 2003, number TR2003-061 in Technical Report.
  2. S. M. Ross, Simulation, Academic Press, second edition, 1996.
  3. M. H. Schneider, S. A. Zenios, A comparative study of algorithms for matrix balancing, Operations Research, 38 (3), (1990), 439-455, ISSN 0030-364X.
  4. A. J. Smith, Trace driven simulation in research on computer architecture and operating systems, in S. Morito et al., editors, New Directions in Simulation for Manufacturing and Communications, The Operations Research Society of Japan, 1994, 43-49.
  5. R. A. Uhlig, T. N. Mudge, Trace-driven memory simulation: A survey, ACM Computing Surveys, 29 (2), (1997), 128-170.
  6. K. Yoneda, Integer estimation of origin-destination tables, Transactions of Institute of Electric Engineers of Japan, 114-C (4), (1994), 483-490.
  7. K. Yoneda, A parallel to the least squares for positive inverse problems, Journal of the Operations Research Society of Japan, 49 (4), (2006), 279-289.
  8. K. Yoneda, Y. Nakayama, T. Matsumoto, Trace-driven simulation of elevator groups, Communications of the Operations Research Society of Japan, 42 (5), (1997), 371-374. In Japanese
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