Manufacturing Technology Today

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Scheduling of Steel Melt Shop by Using Teaching Learning Based Optimization


Affiliations
1 S V University College of Engineering, Tirupati, India
2 Department of Mechanical Engineering, S V University College of Engineering, Tirupati, India
3 Vizag Steel Plant, India
     

   Subscribe/Renew Journal


Scheduling of Steel Melt Shop is a Non-deterministic Polynomial optimization problem, which is one of the most substantial areas of research survey in Integrated Steel Industry. In SMSSP there are n No. of jobs and m No. of machines where each job is processed on every machine in predefined operation sequence. Many traditional and Non - traditional methods such as First cum First Serve, Shortest Job First, Earliest Deadline First, Mixed Integer Linear Programming Model, Integrated Production Process, Ant Colony Optimization, Non Linear Optimization, Linear Programming Model, Lagrangian Relaxation Methods had been applied for some years in the past to find an accurate optimal operation scheduling with minimum Operation Time. The major contribution of this work has been the implementation of an effective scheduling method based on Teaching Learning process for solving SMSSP. TLBO is a recently developed optimization technique based on random population for solving any type of scheduling problem. It consists of two phases namely, Teacher Phase and Learner Phase. Teacher phase signify learning something from a teacher and Learner phase tells about learning by self study. TLBO performance can be attained by solving Scheduling of Steel Melt Shop by minimizing Operation time, Reduction of Tardiness and maximization of number of charges at each stage of SMS at population size of 20,39,1132 charges. The present work is a realistic case study and has proved by the results thus obtained show that TLBO is an active evolutionary algorithm to prosper a best operations scheduling.

Keywords

TLBO, Steel Melt Shop Scheduling Problem (SMSSP), PBX and VNS.
User
Subscription Login to verify subscription
Notifications
Font Size

  • Tang, LX; Liu, JY; Rong, AY; Yang, ZH: A Review of Integrated Planning & Scheduling Systems and Methods for Integrated Steel Production, 'European Journal of Operational Research', vol.133, 2001, 1-20.

  • Gupta, JND: Two-stage hybrid flow shop scheduling problem. Journal of the Operations Research Society, vol. 38, no. 2, 1998, 359–364.

  • Bellabdaoui, A; Teghem, J: A mixed-integer linear programming model for the Continuous Casting planning, 'International Journal of Production Economics', vol. 104, no. 2, 2006, 260-270, 2006.

  • Pinedo, M: Scheduling. Theory, algorithms, and systems, Englewood Cliffs, NJ: Prentice Hall, 1995.

  • Harjunkoski, I; Grossmann, IE: A decomposition approach for the scheduling of Steel plant Production, 'Computers and Chemical Engineering', vol. 25, no. 11-12, 2001, 1647–1660.

  • Tang, LX; Luh, PB; Liu, JY; Fang: Steel making process scheduling using Lagrangian relaxation, 'International Journal of Production Research', vol. 40, no. 1, 2002, 55–70.

  • Huegler, PA; Vasko: Meta-heuristics for Melt shop scheduling in the Steel industry, 'Journal of the Operational Research Society', vol. 58, no. 6, 2007, 791–796.

  • Bellabdaoui, A; Fiordaliso, A; Teghem: A heuristic algorithm for scheduling the Steelmaking Continuous Casting process, 'Pacific Journal of Optimization', vol. 1, no. 3, 2005, 447–464.

  • Roy, R; Adesola, BA; Thornton: Development of a knowledge model for managing schedule disturbance in Steel-making, 'International Journal of Production Research', vol. 42, no.18, 2004, 3975–3994.

  • McKay, KN and Wiers: The human factor in planning and scheduling, In: J. W Herrman, ed. Handbook of Production scheduling, New York: Springer, 2006, 21–57.

  • Chandra Sekhar; Avadhani; Suresh Varma; Bhargava: Three Stage Scheduling of Steel Making using Earliest Deadline First Algorithm, International Journal of Scientific Engineering and Technology, vol. 5, no. 10, 485-490.

  • Tang, Lixin; Liu, Jiyin; Rong, Aiying; Yang, Zihou: A mathematical programming model for Scheduling Steelmaking - Continuous Casting Production, 'European Journal of Operational Research', vol. 120, 2000, 423-435.

  • Rao, RV; Savsani, VJ; Vakharia DP: Teaching Learning Based Optimization: A Novel method for Constrained Mechanical Design Optimization problems, 'Computer-Aided Design', vol. 43, 2011, 303-315.

  • Rao, RV; Savsani, VJ; Vakharia, DP: Teaching Learning Based Optimization: An Optimization Method for Continuous Non Linear Large Scale Problems, 'Information Sciences', vol. 18, 2012, 1-15.

  • Rao, RV; Vivek Patel: An Elitist Teaching Learning Based Optimization algorithm for solving Complex Constrained Optimization problems. International Journal of Industrial Engineering Computations, vol. 3, 2012, 535–560.

  • Venkata Rao, R; Vivek Patel: An Improved Teaching Learning Based Optimization algorithm for solving Unconstrained Optimization problems, 'Scientific arnica', vol. 20, no. 3, 2013, 710–720


Abstract Views: 234

PDF Views: 4




  • Scheduling of Steel Melt Shop by Using Teaching Learning Based Optimization

Abstract Views: 234  |  PDF Views: 4

Authors

B. Swaranalatha
S V University College of Engineering, Tirupati, India
G. Padmanabhan
Department of Mechanical Engineering, S V University College of Engineering, Tirupati, India
S. B. V. S. P. Sastry
Vizag Steel Plant, India

Abstract


Scheduling of Steel Melt Shop is a Non-deterministic Polynomial optimization problem, which is one of the most substantial areas of research survey in Integrated Steel Industry. In SMSSP there are n No. of jobs and m No. of machines where each job is processed on every machine in predefined operation sequence. Many traditional and Non - traditional methods such as First cum First Serve, Shortest Job First, Earliest Deadline First, Mixed Integer Linear Programming Model, Integrated Production Process, Ant Colony Optimization, Non Linear Optimization, Linear Programming Model, Lagrangian Relaxation Methods had been applied for some years in the past to find an accurate optimal operation scheduling with minimum Operation Time. The major contribution of this work has been the implementation of an effective scheduling method based on Teaching Learning process for solving SMSSP. TLBO is a recently developed optimization technique based on random population for solving any type of scheduling problem. It consists of two phases namely, Teacher Phase and Learner Phase. Teacher phase signify learning something from a teacher and Learner phase tells about learning by self study. TLBO performance can be attained by solving Scheduling of Steel Melt Shop by minimizing Operation time, Reduction of Tardiness and maximization of number of charges at each stage of SMS at population size of 20,39,1132 charges. The present work is a realistic case study and has proved by the results thus obtained show that TLBO is an active evolutionary algorithm to prosper a best operations scheduling.

Keywords


TLBO, Steel Melt Shop Scheduling Problem (SMSSP), PBX and VNS.

References